November 2011: {{xmlref|tr-196-2-0-0|Original}} November 2012:
{{xmlref|tr-196-2-0-1|Corrigendum 1}}
* Corrected errors in TR-196i2 per direction of 3GPP TS 32.592.
* Corrected range of FAPService.{i}.REM.UMTS.GSM.Cell.{i}.CI
A non-volatile handle used to reference this instance.
'''This is intended only for use in protocol-independent "common"
definitions, and MUST NOT be used in protocol-specific definitions.'''
A non-volatile handle used to reference this instance. Alias provides a
mechanism for an ACS to label this instance for future reference.
If the CPE supports the Alias-based Addressing feature as defined in
{{bibref|TR-069|3.6.1}} and described in {{bibref|TR-069|Appendix II}},
the following mandatory constraints MUST be enforced:
* Its value MUST NOT be empty.
* Its value MUST start with a letter.
* If its value is not assigned by the ACS, it MUST start with a "cpe-"
prefix.
* The CPE MUST NOT change the parameter value.
IP address, i.e. IPv4 address (or IPv4 subnet mask) or IPv6 address.
All IPv4 addresses and subnet masks MUST be represented as strings in
IPv4 dotted-decimal notation. Here are some examples of valid IPv4
address textual representations:
* 216.52.29.100
* 192.168.1.254
All IPv6 addresses MUST be represented using any of the 3 standard
textual representations defined in {{bibref|RFC4291}} Sections 2.2.1,
2.2.2 and 2.2.3. Both lower-case and upper-case letters can be used, but
use of lower-case letters is RECOMMENDED. Here are some examples of valid
IPv6 address textual representations:
* 1080:0:0:800:ba98:3210:11aa:12dd
* 1080::800:ba98:3210:11aa:12dd
* 0:0:0:0:0:0:13.1.68.3
IPv6 addresses MUST NOT include zone identifiers. Zone identifiers are
discussed in {{bibref|RFC4007|Section 6}}.
Unspecified or inapplicable addresses (or IPv4 subnet masks) MUST be
represented as empty strings unless otherwise specified by the parameter
definition.
IPv4 address (or subnet mask).
Can be any IPv4 address that is permitted by the ''IPAddress'' data type.
3GPP TS 03.03
Numbering, Addressing and Identification
3GPP CT WG4
https://www.3gpp.org/ftp/Specs/html-info/0303.htm
3GPP TS 05.05
Radio Transmission and Reception
3GPP GERAN WG1
https://www.3gpp.org/ftp/Specs/html-info/0505.htm
3GPP TS 22.011
Service accessibility
3GPP SA WG1
https://www.3gpp.org/ftp/Specs/html-info/22011.htm
3GPP TS 22.220
Service requirements for Home Node B (HNB) and Home eNode B (HeNB)
3GPP SA WG1
https://www.3gpp.org/ftp/Specs/html-info/22220.htm
3GPP TS 23.003
Numbering, addressing and identification
3GPP CT WG4
https://www.3gpp.org/ftp/Specs/html-info/23003.htm
3GPP TS 23.032
Universal Geographical Area Description (GAD)
3GPP SA WG2
https://www.3gpp.org/ftp/Specs/html-info/23032.htm
3GPP TS 23.060
General Packet Radio Service (GPRS); Service description; Stage 2
3GPP SA WG2
https://www.3gpp.org/ftp/Specs/html-info/23060.htm
3GPP TS 23.203
Policy and charging control architecture
3GPP SA WG2
https://www.3gpp.org/ftp/Specs/html-info/23203.htm
3GPP TS 23.401
General Packet Radio Service (GPRS) enhancements for Evolved Universal
Terrestrial Radio Access Network (E-UTRAN) access
3GPP SA WG2
https://www.3gpp.org/ftp/Specs/html-info/23401.htm
3GPP TS 24.008
Mobile radio interface Layer 3 specification; Core network protocols;
Stage 3
3GPP CT WG1
https://www.3gpp.org/ftp/Specs/html-info/24008.htm
3GPP TS 25.104
Base Station (BS) radio transmission and reception (FDD)
3GPP RAN WG4
https://www.3gpp.org/ftp/Specs/html-info/25104.htm
3GPP TS 25.133
Requirements for support of radio resource management (FDD)
3GPP RAN WG4
https://www.3gpp.org/ftp/Specs/html-info/25133.htm
3GPP TS 25.214
Physical layer procedures (FDD)
3GPP RAN WG1
https://www.3gpp.org/ftp/Specs/html-info/25214.htm
3GPP TS 25.304
User Equipment (UE) procedures in idle mode and procedures for cell
reselection in connected mode
3GPP RAN WG2
https://www.3gpp.org/ftp/Specs/html-info/25304.htm
3GPP TS 25.331
Radio Resource Control (RRC); Protocol specification
3GPP RAN WG2
https://www.3gpp.org/ftp/Specs/html-info/25331.htm
3GPP TS 25.401
UTRAN overall description
3GPP RAN WG3
https://www.3gpp.org/ftp/Specs/html-info/25401.htm
3GPP TS 25.413
UTRAN Iu interface Radio Access Network Application Part (RANAP)
signalling
3GPP RAN WG3
https://www.3gpp.org/ftp/Specs/html-info/25413.htm
3GPP TS 25.433
UTRAN Iub interface Node B Application Part (NBAP) signalling
3GPP RAN WG3
https://www.3gpp.org/ftp/Specs/html-info/25433.htm
3GPP TS 25.469
UTRAN Iuh interface Home Node B Application Part (HNBAP) signalling
3GPP RAN WG3
https://www.3gpp.org/ftp/Specs/html-info/25469.htm
3GPP TS 25.967
FDD Home NodeB RF Requirements
3GPP RAN WG4
https://www.3gpp.org/ftp/Specs/html-info/25967.htm
3GPP TS 29.281
General Packet Radio System (GPRS) Tunnelling Protocol User Plane
(GTPv1-U)
3GPP CT WG4
https://www.3gpp.org/ftp/Specs/html-info/29281.htm
3GPP TS 32.300
Telecommunication management; Configuration Management (CM); Name
convention for Managed Objects
3GPP SA WG5
https://www.3gpp.org/ftp/Specs/html-info/32300.htm
3GPP TS 32.405
Telecommunication management; Performance Management (PM); Performance
measurements Universal Terrestrial Radio Access Network (UTRAN)
3GPP SA WG5
https://www.3gpp.org/ftp/Specs/html-info/32405.htm
3GPP TS 32.582
Telecommunications management; Home Node B (HNB) Operations,
Administration, Maintenance and Provisioning (OAM&P); Information
model for Type 1 interface HNB to HNB Management System (HMS)
3GPP SA WG5
https://www.3gpp.org/ftp/Specs/html-info/32582.htm
3GPP TS 32.592
Telecommunications management; Home enhanced Node B (HeNB) Operations,
Administration, Maintenance and Provisioning (OAM&P); Information
model for Type 1 interface HeNB to HeNB Management System (HeMS)
3GPP SA WG5
https://www.3gpp.org/ftp/Specs/html-info/32592.htm
3GPP TS 32.642
Telecommunication management; Configuration Management (CM); UTRAN
network resources Integration Reference Point (IRP); Network Resource
Model (NRM)
3GPP SA WG5
https://www.3gpp.org/ftp/Specs/html-info/32642.htm
3GPP TS 33.401
3GPP System Architecture Evolution (SAE); Security architecture
3GPP SA WG3
https://www.3gpp.org/ftp/Specs/html-info/33401.htm
3GPP TS 36.101
Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment
(UE) radio transmission and reception
3GPP RAN WG4
https://www.3gpp.org/ftp/Specs/html-info/36101.htm
3GPP TS 36.104
Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS)
radio transmission and reception
3GPP RAN WG4
https://www.3gpp.org/ftp/Specs/html-info/36104.htm
3GPP TS 36.133
Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements for
support of radio resource management
3GPP RAN WG4
https://www.3gpp.org/ftp/Specs/html-info/36133.htm
3GPP TS 36.211
Evolved Universal Terrestrial Radio Access (E-UTRA); Physical channels
and modulation
3GPP RAN WG1
https://www.3gpp.org/ftp/Specs/html-info/36211.htm
3GPP TS 36.212
Evolved Universal Terrestrial Radio Access (E-UTRA); Multiplexing and
channel coding
3GPP RAN WG1
https://www.3gpp.org/ftp/Specs/html-info/36212.htm
3GPP TS 36.213
Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer
procedures
3GPP RAN WG1
https://www.3gpp.org/ftp/Specs/html-info/36213.htm
3GPP TS 36.214
Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer -
Measurements
3GPP RAN WG1
https://www.3gpp.org/ftp/Specs/html-info/36214.htm
3GPP TS 36.300
Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved
Universal Terrestrial Radio Access Network (E-UTRAN); Overall
description; Stage 2
3GPP RAN WG3
https://www.3gpp.org/ftp/Specs/html-info/36300.htm
3GPP TS 36.304
Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment
(UE) procedures in idle mode
3GPP RAN WG2
https://www.3gpp.org/ftp/Specs/html-info/36304.htm
3GPP TS 36.321
Evolved Universal Terrestrial Radio Access (E-UTRA); Medium Access
Control (MAC) protocol specification
3GPP RAN WG2
https://www.3gpp.org/ftp/Specs/html-info/36321.htm
3GPP TS 36.322
Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Link Control
(RLC) protocol specification
3GPP RAN WG2
https://www.3gpp.org/ftp/Specs/html-info/36322.htm
3GPP TS 36.331
Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource
Control (RRC); Protocol specification
3GPP RAN WG2
https://www.3gpp.org/ftp/Specs/html-info/36331.htm
3GPP TS 36.413
Evolved Universal Terrestrial Radio Access Network (E-UTRAN); S1
Application Protocol (S1AP)
3GPP RAN WG3
https://www.3gpp.org/ftp/Specs/html-info/36413.htm
3GPP TS 45.005
Radio transmission and reception
3GPP GERAN WG1
https://www.3gpp.org/ftp/Specs/html-info/45005.htm
3GPP TS 45.008
Radio Access Network; Radio subsystem link control
3GPP GERAN WG1
https://www.3gpp.org/ftp/Specs/html-info/45008.htm
A.S0008-C v2.0
Interoperability Specification (IOS) for High Rate Packet Data (HRPD)
Radio Access Network Interfaces with Session Control in the Access
Network
3GPP2
January 2009
https://www.3gpp2.org/Public_html/Specs/A.S0008-C_v2.0_090106.pdf
A.S0009-C v2.0
Interoperability Specification (IOS) for High Rate Packet Data (HRPD)
Radio Access Network Interfaces with Session Control in the Packet
Control Function
3GPP2
January 2009
https://www.3gpp2.org/Public_html/Specs/A.S0009-C_v2.0_090106.pdf
A.S0013-D v2.0
Interoperability Specification (IOS) for CDMA2000 Access Network
Interfaces Part 3 Features
3GPP2
August 2009
https://www.3gpp2.org/Public_html/Specs/A.S0013-D_v2.0_090825.pdf
A.S0014-D v2.0
Interoperability Specification (IOS) for CDMA2000 Access Network
Interfaces Part 4 (A1, A1p, A2, and A5 Interfaces)
3GPP2
August 2009
https://www.3gpp2.org/Public_html/Specs/A.S0014-D_v2.0_090825.pdf
A.S0024-0 v1.0
Interoperability Specification (IOS) for Femtocell Access Points
3GPP2
March 2010
https://www.3gpp2.org/Public_html/Specs/A.S0024-0_v1.0_100302.pdf
3GPP2 C.S0002-A
Physical Layer Standard for CDMA2000 Spread Spectrum Systems, Release A
3GPP2 TSG-C
https://www.3gpp2.org/Public_html/Specs/C.S0002-A_v6.0.pdf
C.S0005-E v1.0
Upper Layer (Layer 3) Signaling Standard for CDMA2000 Spread Spectrum
Systems
3GPP2
September 2009
https://www.3gpp2.org/Public_html/Specs/C.S0005-E_v1.0_cdma200_1x_Layer_3-090925.pdf
3GPP2 C.S0005-A
Upper Layer (Layer 3) Signaling Standard for CDMA2000 Spread Spectrum
Systems, Release: A
3GPP2 TSG-C
https://www.3gpp2.org/Public_html/Specs/C.S0005-A.pdf
C.S0024-B v3.0
CDMA2000 High Rate Packet Data Air Interface Specification
3GPP2
September 2009
https://www.3gpp2.org/Public_html/Specs/C.S0024-B_v3.0_HRPD.pdf
3GPP2 C.S0024-A
CDMA2000 High Rate Packet Data Air Interface Specification
3GPP2 TSG-C
https://www.3gpp2.org/Public_html/Specs/C.S0024-A_v3.0_060912.pdf
C.S0024-B v3.0
CDMA2000 High Rate Packet Data Air Interface Specification
3GPP2
September 2009
https://www.3gpp2.org/Public_html/Specs/C.S0024-B_v3.0_HRPD.pdf
C.S0057-D v1.0
Band Class Specification for CDMA2000 Spread Spectrum Systems
3GPP2
September 2009
https://www.3gpp2.org/Public_html/Specs/C.S0057-D_v1.0%20Band%20Class%20.pdf
3GPP2 C.S0057-B
Band Class Specification for CDMA2000 Spread Spectrum Systems
3GPP2 TSG-C
https://www.3gpp2.org/Public_html/Specs/C.S0057-B%20v1.0_060814.pdf
C.R1001-G v1.0
Administration of Parameter Value Assignments for CDMA2000 Spread
Spectrum Standards - Release G
3GPP2
June 2009
https://www.3gpp2.org/Public_html/Specs/C.R1001-G_v1.0_Param_Administration.pdf
N.S0010-0 v1.0
Advanced Features in Wideband Spread Spectrum Systems
3GPP2
January 1998
https://www.3gpp2.org/Public_html/Specs/N.S0010-0_v1.0.pdf
S.S0132-0 v1.0
Femtocell Security Framework
3GPP2
January 2010
https://www.3gpp2.org/Public_html/Specs/S.S0132-0_v1.0_Femtocell_Security_Framework.pdf
X.S0059-0 v1.0
CDMA2000 Femtocell Network
3GPP2
January 2010
https://www.3gpp2.org/Public_html/Specs/X.S0059-000-0_v1.0_100216.pdf
Guidelines for 64-bit Global Identifier (EUI-64) Registration Authority
Guidelines for 64-bit Global Identifier (EUI-64) Registration Authority
IEEE
March 1997
https://standards.ieee.org/regauth/oui/tutorials/EUI64.html
ITU E.118
The international telecommunication charge card
International Telecommunication Union
May 2006
https://www.itu.int/rec/T-REC-E.118-200605-I/en
ITU X.731
Information Technology - Open Systems Interconnection - Systems
Management: State Management Function
International Telecommunication Union
January 1992
https://www.itu.int/rec/T-REC-X.731/en
IANA Port Numbers
Port Numbers
IANA
https://www.iana.org/assignments/port-numbers
IANA Uniform Resource Identifier (URI) Schemes Registry
Uniform Resource Identifier (URI) Schemes
IANA
https://www.iana.org/assignments/uri-schemes
RFC 3261
SIP: Session Initiation Protocol
IETF
June 2002
https://www.rfc-editor.org/rfc/rfc3261
RFC 3455
Private Header (P-Header) Extensions to the Session Initiation Protocol
(SIP) for the 3rd-Generation Partnership Project (3GPP)
IETF
January 2003
https://www.rfc-editor.org/rfc/rfc3455
RFC 3550
RTP: A Transport Protocol for Real-Time Applications
IETF
July 2003
https://www.rfc-editor.org/rfc/rfc3550
RFC 3873
Stream Control Transmission Protocol (SCTP) Management Information Base
(MIB)
IETF
September 2004
https://www.rfc-editor.org/rfc/rfc3873
RFC 3986
Uniform Resource Identifier (URI): Generic Syntax
IETF
RFC
https://www.rfc-editor.org/rfc/rfc3986
RFC 4007
IPv6 Scoped Address Architecture
IETF
RFC
https://www.rfc-editor.org/rfc/rfc4007
RFC 4028
Session Timers in the Session Initiation Protocol (SIP)
IETF
April 2005
https://www.rfc-editor.org/rfc/rfc4028
RFC 4122
A Universally Unique IDentifier (UUID) URN Namespace
IETF
RFC
2005
https://www.rfc-editor.org/rfc/rfc4122
RFC 4291
IP Version 6 Addressing Architecture
IETF
RFC
2006
https://www.rfc-editor.org/rfc/rfc4291
RFC 4632
Classless Inter-domain Routing (CIDR): The Internet Address Assignment
and Aggregation Plan
IETF
2006
https://www.rfc-editor.org/rfc/rfc4632
RFC 4960
Stream Control Transmission Protocol
IETF
September 2007
https://www.rfc-editor.org/rfc/rfc4960
RFC7159
The JavaScript Object Notation (JSON) Data Interchange Format
IETF
RFC
March 2014
https://www.rfc-editor.org/rfc/rfc7159
RFC 7230
Hypertext Transfer Protocol (HTTP/1.1): Message Syntax and Routing
IETF
RFC
June 2014
https://www.rfc-editor.org/rfc/rfc7230
RFC 7252
The Constrained Application Protocol (CoAP)
IETF
RFC
June 2014
https://www.rfc-editor.org/rfc/rfc7252
RFC 8141
Uniform Resource Names (URNs)
IETF
RFC
April 2017
https://www.rfc-editor.org/rfc/rfc8141
TR-069 Amendment 2
CPE WAN Management Protocol
Broadband Forum
TR
December 2007
TR-069 Amendment 6
CPE WAN Management Protocol
Broadband Forum
TR
April 2018
TR-098 Amendment 2 Corrigendum 1
Internet Gateway Device Data Model for TR-069
Broadband Forum
TR
December 2014
TR-106 Amendment 2
Data Model Template for TR-069-Enabled Devices
Broadband Forum
TR
November 2008
TR-157 Amendment 5
Component Objects for CWMP
Broadband Forum
TR
November 2011
TR-181 Issue 1
Device Data Model for TR-069
Broadband Forum
TR
February 2010
TR-181 Issue 2 Amendment 15
Device Data Model
Broadband Forum
TR
January 2022
TR-262
Femto Component Objects
Broadband Forum
TR
November 2011
Simple Object Access Protocol (SOAP) 1.1
W3C
https://www.w3.org/TR/2000/NOTE-SOAP-20000508
ZigBee 2007 Specification
ZigBee 2007 Specification
ZigBee Alliance
October 2007
https://csa-iot.org/all-solutions/zigbee
{{numentries}}
The Femto Access Point (FAP) Service Object.
{{datatype|expand}}
The type of FAP device.
The Distinguished Name prefix (DNPrefix) is an operator-configurable
prefix string that is pre-pended to object distinguished names in the
{{bibref|TR-157a5}} alarm object. See {{bibref|3GPP-TS.32.300}} for
the formal definition and examples of DNPrefix as applied to 3GPP
alarm objects
This object contains parameters relating to the hardware capabilities
of the FAP device.
Indicates whether the FAP is equipped with a GPS receiver or not.
Indicates the maximum possible transmit power in {{units}} that the
FAP hardware can support.
{{list}} Each entry is a type of system that the FAP supports.
{{enum}}
Indicates whether FAP can support beacon transmission.
This object contains parameters relating to the system and RF aspect of
the FAP device that supports the UMTS system.
Indicates the mode supported by the FAP. {{enum}}
Indicates whether the FAP hardware supports the receiving function of
GSM or not.
Indicates whether the FAP hardware supports the HSDPA capability or
not.
If the FAP hardware supports HSDPA ({{param|HSDPASupported}} is
{{true}}), this parameter indicates the maximum HSDPA data rate in
{{units}} that the device supports.
Indicates whether the FAP hardware supports the HSUPA capability or
not.
If the FAP hardware supports HSUPA ({{param|HSUPASupported}} is
{{true}}), this parameter indicates the maximum HSUPA data rate in
{{units}} that the device supports.
If the FAP hardware supports HSPA family (either
{{param|HSDPASupported}} is {{true}} or {{param|HSUPASupported}} is
{{true}}), this parameter indicates the available number of codes at
the defined spreading factor (SF=16), within the complete code tree.
See {{bibref|3GPP-TS.32.642|Section 6.3.9}} for more details.
If the FAP hardware supports HSPA family (either
{{param|HSDPASupported}} is {{true}} or {{param|HSUPASupported}} is
{{true}}), this parameter indicates the available number of HS-SCCHs
for one cell. See {{bibref|3GPP-TS.32.642|Section 6.3.9}} for more
details.
{{list}} Indicates the UMTS bands that the FAP supports
{{bibref|3GPP-TS.25.104}}, Release 8. At least one band MUST be
supported and multiple bands MAY be supported.
{{bibref|3GPP-TS.25.104}} Version 8.3.0 defines 14 UMTS bands (I
through XIV). Each individual band is identified by its upper case
Roman numeral. The order of the band indicators in the string has no
significance. In case a new band is defined in the 3GPP standard in a
future release of {{bibref|3GPP-TS.25.104}}, the corresponding new
upper case Roman numeral will be included in the valid band
indicators. The followings are examples of valid values:
:"I" (specifies only band-I is supported)
:"I,II,V" (specifies 3 bands are supported)
:"II,VII,I" (specifies 3 bands are supported)
{{list}} Indicates the GSM receive bands that the FAP supports
{{bibref|3GPP-TS.45.005}}. At least one band MUST be supported and
multiple bands MAY be supported. {{bibref|3GPP-TS.45.005}} defines 14
GSM bands. {{enum}} The order of the band indicators in the string
has no significance. The following is an example of a valid value.
:"GSM850,PCS1900"
This object contains parameters relating to the self-configuration
capabilities of the FAP. Self-configuration is enabled in
{{object|.FAPControl.UMTS.SelfConfig.}}
Indicates whether the FAP supports the self-configuration capability
to determine the UTRA Absolute Radio Frequency Channel Number
(UARFCN). If {{true}} multiple values MAY be provided in
{{param|.CellConfig.UMTS.RAN.RF.UARFCNDL}} for the FAP to select
from. If {{false}} only a single value SHOULD be provided in
{{param|.CellConfig.UMTS.RAN.RF.UARFCNDL}}.
Indicates whether the FAP supports the self-configuration capability
to determine the Primary Scrambling Code (PSC). If {{true}} multiple
values or a range of values MAY be provided in
{{param|.CellConfig.UMTS.RAN.RF.PrimaryScramblingCode}} for the FAP
to select from. If {{false}} only a single value SHOULD be provided
in {{param|.CellConfig.UMTS.RAN.RF.PrimaryScramblingCode}}.
Indicates whether the FAP supports the self-configuration capability
to determine the Maximum FAP Transmit Power. If {{true}} a range of
values MAY be provided in
{{param|.CellConfig.UMTS.RAN.RF.MaxFAPTxPowerExpanded}} for the FAP
to select from. If {{false}} only a single value SHOULD be provided
in {{param|.CellConfig.UMTS.RAN.RF.MaxFAPTxPowerExpanded}}.
Indicates whether the FAP supports the self-configuration capability
to determine the P-CPICH power. If {{true}} a range of values MAY be
provided in {{param|.CellConfig.UMTS.RAN.RF.PCPICHPower}} for the FAP
to select from. If {{false}} only a single value SHOULD be provided
in {{param|.CellConfig.UMTS.RAN.RF.PCPICHPower}} as an upper bound.
Indicates whether the FAP supports the self-configuration capability
to determine the Maximum UL Transmit Power. If {{true}} a range of
values MAY be provided in
{{param|.CellConfig.UMTS.RAN.RF.MaxULTxPower}} for the FAP to select
from. If {{false}} only a single value SHOULD be provided in
{{param|.CellConfig.UMTS.RAN.RF.MaxULTxPower}}.
Indicates whether the FAP supports the self-configuration capability
to determine the LAC, RAC, and URA. If {{true}} multiple values MAY
be provided in {{param|.CellConfig.UMTS.CN.LACRAC}} and
{{param|.CellConfig.UMTS.RAN.URAList}} for the FAP to select from. If
{{false}} only a single value SHOULD be provided in
{{param|.CellConfig.UMTS.CN.LACRAC}} and
{{param|.CellConfig.UMTS.RAN.URAList}}.
Indicates whether the FAP supports the self-configuration capability
to determine the neighbor list. If {{true}} the ACS uses the
{{object|.CellConfig.UMTS.RAN.NeighborList.IntraFreqCell.{i}.}},
{{object|.CellConfig.UMTS.RAN.NeighborList.InterFreqCell.{i}.}},
{{object|.CellConfig.UMTS.RAN.NeighborList.InterRATCell.}} tables to
explicitly include or exclude entries and the FAP uses that
information to determine the final configuration found in the
{{object|.CellConfig.UMTS.RAN.NeighborListInUse.IntraFreqCell.{i}.}},
{{object|.CellConfig.UMTS.RAN.NeighborListInUse.InterFreqCell.{i}.}},
{{object|.CellConfig.UMTS.RAN.NeighborListInUse.InterRATCell.}}
tables. If {{false}} the ACS uses the
{{object|.CellConfig.UMTS.RAN.NeighborList.IntraFreqCell.{i}.}},
{{object|.CellConfig.UMTS.RAN.NeighborList.InterFreqCell.{i}.}},
{{object|.CellConfig.UMTS.RAN.NeighborList.InterRATCell.}} tables to
only specify the included entries and the FAP uses that list.
Indicates whether the FAP supports the self-configuration capability
to determine cell-reselection values. If {{true}}
{{object|.CellConfig.UMTS.RAN.CellSelection.}} can be
self-configured. If {{false}}
{{object|.CellConfig.UMTS.RAN.CellSelection.}} is provided by the
ACS.
Indicates whether the FAP supports the self-configuration capability
to determine intra-frequency measurement values. If {{true}}
{{object|.CellConfig.UMTS.RAN.IntraFreqMeas.}} can be
self-configured. If {{false}}
{{object|.CellConfig.UMTS.RAN.IntraFreqMeas.}} is provided by the
ACS.
Indicates whether the FAP supports the self-configuration capability
to determine inter-frequency measurement values. If {{true}}
{{object|.CellConfig.UMTS.RAN.InterFreqMeas.}} can be
self-configured. If {{false}}
{{object|.CellConfig.UMTS.RAN.InterFreqMeas.}} is provided by the
ACS.
Indicates whether the FAP supports the self-configuration capability
to determine inter-RAT measurement values. If {{true}}
{{object|.CellConfig.UMTS.RAN.InterRATMeas.}} can be self-configured.
If {{false}} {{object|.CellConfig.UMTS.RAN.InterRATMeas.}} is
provided by the ACS.
Indicates whether the FAP supports the self-configuration capability
to determine UE internal measurement values. If {{true}}
{{object|.CellConfig.UMTS.RAN.UEInternalMeas.}} can be
self-configured. If {{false}}
{{object|.CellConfig.UMTS.RAN.UEInternalMeas.}} is provided by the
ACS.
Indicates whether the FAP supports the selfconfiguration capability
to determine the Noise Rise Limit. If {{true}}
{{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitLowerValue}} and
{{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitUpperValue}}. MAY
provide a range of values to select from. If {{false}}
{{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitUpperValue}} provides
only a single value to be used. The value of
{{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitLowerValue}} is
ignored.
This object contains parameters relating to the system and RF aspect of
the FAP device that supports the LTE system.
Indicates the mode supported by the LTE FAP. {{enum}}
{{list}} Indicates the LTE bands that the LTE FAP supports
{{bibref|3GPP-TS.36.101|Section 5.5}}. At least one band MUST be
supported and multiple bands MAY be supported. Each individual band
is identified by arabic number (1, 2,...). The order of the band
indicators in the string has no significance. In case a new band is
defined in the 3GPP standard in a future release of
{{bibref|3GPP-TS.36.101}}, the corresponding new band number will be
included in the valid band indicators. The followings are examples of
valid values:
:"1" (specifies only band-1 is supported)
:"1,2,11" (specifies 3 bands are supported)
:"2,11,1" (specifies 3 bands are supported)
Indicates whether LTE FAP supports the NAS Node Selection Function
(NNSF) or not. NNSF is described in {{bibref|3GPP-TS.36.300|Section
19.2.1.7 and Section 4.6.1}}.
Indicates whether the LTE FAP hardware supports the receiving
function of UMTS or not.
{{list}} Indicates the UMTS receive bands that the LTE FAP supports
{{bibref|3GPP-TS.25.104}}, Release 8. If {{param|UMTSRxSupported}} is
{{true}}, then at least one band MUST be supported and multiple bands
MAY be supported. Each individual band is identified by its upper
case Roman numeral. The order of the band indicators in the string
has no significance. In case a new band is defined in the 3GPP
standard in a future release of {{bibref|3GPP-TS.25.104}}, the
corresponding new upper case Roman numeral will be included in the
valid band indicators. The followings are examples of valid values:
:"I" (specifies only band-I is supported)
:"I,II,V" (specifies 3 bands are supported)
:"II,VII,I" (specifies 3 bands are supported)
Indicates whether the LTE FAP hardware supports the receiving
function of GSM or not.
{{list}} Indicates the GSM receive bands that the LTE FAP supports
{{bibref|3GPP-TS.45.005}}. If {{param|GSMRxSupported}} is {{true}},
then at least one band MUST be supported and multiple bands MAY be
supported. {{bibref|3GPP-TS.45.005}} defines 14 GSM bands. {{enum}}
The order of the band indicators in the string has no significance.
The following is an example of a valid value.
:"GSM850,PCS1900"
Indicates whether the LTE FAP hardware supports the receiving
function of CDMA2000 or not.
{{list}} Indicates the CDMA2000 receive bands that the LTE FAP
supports. If {{param|CDMA2000RxSupported}} is {{true}}, then at least
one band MUST be supported and multiple bands MAY be supported. The
order of the band indicators in the string has no significance.
Bandclass is a 1 or 2-digit number as defined in
{{bibref|3GPP2-C.S0057-B}}. The following are example values:
:"0" (specifies US Cellular)
:"1,3,14" (specifies US PCS, Japan Cellular and US PCS 1.9Ghz)
specifies 3 bands are supported)
This object contains parameters relating to the capability attributes
for CDMA2000 FAP.
Indicates whether the FAP is capable of providing remote IP access
service as defined in {{bibref|3GPP2-X.S0059}}. If {{true}}, the FAP
is capable of remote IP access service. If {{false}}, the FAP is not
capable of remote IP access service.
{{list}} Indicates the band classes that the FAP supports for beacon
transmission. One or multiple bands MAY be supported. Bandclass is a
1 or 2-digit number as defined in {{bibref|3GPP2-C.S0057}}. List is
empty if FAP can not support beacon transmissions.
This object contains parameters relating to the capability attributes
for the CDMA2000 1x radio technology portions of a CDMA2000 FAP.
{{list}} Indicates the CDMA bands that the FAP supports. At least one
band MUST be supported and multiple bands MAY be supported. Bandclass
is a 1 or 2-digit number as defined in {{bibref|3GPP2-C.S0057}}. The
following are example values: "0" (specifies US Cellular) "1,3,14"
(specifies US PCS, Japan Cellular and US PCS 1.9Ghz)
Indicates whether the FAP is capable of accepting hand-in of active
1x call from another base station. If {{true}}, the FAP is capable of
accepting hand-in. If {{false}}, the FAP is not capable of accepting
hand-in.
Indicates whether the FAP supports Access Point Identification,
Access Point Pilot Information, and Access Point Identification Text
messages specified in {{bibref|3GPP2-C.S0005}}. If {{true}}, the FAP
supports these messages. If {{false}}, the FAP does not supports
these messages.
This object contains parameters relating to the self-configuration
capabilities of the FAP. Self-configuration is enabled in
{{object|.FAPControl.CDMA2000.OneX.SelfConfig.}}.
Indicates whether the FAP supports the self-configuration capability
to determine the Radio Frequency Channel Number. If {{true}} multiple
values MAY be provided in
{{param|.CellConfig.CDMA2000.OneX.RAN.RF.RFCNFL}} for the FAP to
select from. If {{false}} only a single value SHOULD be provided in
{{param|.CellConfig.CDMA2000.OneX.RAN.RF.RFCNFL}}.
Indicates whether the FAP supports the self-configuration capability
to determine the pilot PN offset. If {{true}} multiple values or a
range of values MAY be provided in
{{param|.CellConfig.CDMA2000.OneX.RAN.RF.PilotPN}} for the FAP to
select from. If {{false}} only a single value SHOULD be provided in
{{param|.CellConfig.CDMA2000.OneX.RAN.RF.PilotPN}}.
Indicates whether the FAP supports the self-configuration capability
to determine the Maximum FAP Transmit Power. If {{true}} a range of
values MAY be provided in
{{param|.CellConfig.CDMA2000.OneX.RAN.RF.MaxFAPTxPower}} for the FAP
to select from. If {{false}} only a single value SHOULD be provided
in {{param|.CellConfig.CDMA2000.OneX.RAN.RF.MaxFAPTxPower}}.
Indicates whether the FAP supports the self-configuration capability
to determine the Maximum FAP Beacon Transmit Power. If {{true}} a
range of values MAY be provided in
{{param|.CellConfig.CDMA2000.Beacon.MaxFAPBeaconTxPower}} for the FAP
to select from. If {{false}} only a single value SHOULD be provided
in {{param|.CellConfig.CDMA2000.Beacon.MaxFAPBeaconTxPower}}.
This object contains parameters relating to the capability attributes
for the CDMA2000 HRPD radio technology portions of a CDMA2000 FAP.
Indicates whether the FAP is capable of supporting A13 session
transfer. See {{bibref|3GPP2-C.S0024-B}}.
Indicates whether the FAP is capable of supporting A16 session
transfer. See {{bibref|3GPP2-C.S0024-B}}.
Indicates whether the FAP is capable of supporting Local IP access.
See {{bibref|3GPP2-C.S0024-B}}.
Indicated whether the FAP supports a dedicated transmission of HRPD
beacon independent of the generalized beacon.
This object contains parameters relating to the self-configuration
capability attributes for the CDMA2000 HRPD radio technology portions
of a CDMA2000 FAP.
Indicates whether the FAP supports the self-configuration capability
to determine the Radio Frequency Channel Number. If {{true}} multiple
values MAY be provided in
{{param|.CellConfig.CDMA2000.HRPD.RAN.RF.RFCNFL}} for the FAP to
select from. If {{false}} only a single value SHOULD be provided in
{{param|.CellConfig.CDMA2000.HRPD.RAN.RF.RFCNFL}}.
Indicates whether the FAP supports the self-configuration capability
to determine the pilot PN offset. If {{true}} multiple values or a
range of values MAY be provided in
{{param|.CellConfig.CDMA2000.HRPD.RAN.RF.PilotPN}} for the FAP to
select from. If {{false}} only a single value SHOULD be provided in
{{param|.CellConfig.CDMA2000.HRPD.RAN.RF.PilotPN}}.
Indicates whether the FAP supports the self-configuration capability
to determine the Maximum FAP Transmit Power. If {{true}} a range of
values MAY be provided in
{{param|.CellConfig.CDMA2000.HRPD.RAN.RF.MaxFAPTxPower}} for the FAP
to select from. If {{false}} only a single value SHOULD be provided
in {{param|.CellConfig.CDMA2000.HRPD.RAN.RF.MaxFAPTxPower}}.
Indicates whether the FAP supports the self-configuration capability
to determine the Maximum FAP Beacon Transmit Power. If {{true}} a
range of values MAY be provided in
{{param|.CellConfig.CDMA2000.Beacon.MaxFAPBeaconTxPower}} for the FAP
to select from. If {{false}} only a single value SHOULD be provided
in {{param|.CellConfig.CDMA2000.Beacon.MaxFAPBeaconTxPower}}.
This object contains parameters relating to state management and
provisioning aspects of the FAP.
{{list}} Each item is an event that causes the FAP to perform self
configuration as defined by {{object|.FAPControl.UMTS.SelfConfig.}},
{{object|.FAPControl.CDMA2000.OneX.SelfConfig.}}, or
{{object|.FAPControl.CDMA2000.HRPD.SelfConfig.}}. Vendors can extend
the enumerated values with vendor-specific extensions, in which case
the rules outlined in {{bibref|TR-106a2|Section3.3}} MUST be adhered
to.
Self-configuration is initiated upon completion of Radio
Environment Measurement (REM) that occurs after sending a
BOOTSTRAP.
This parameter indicates whether or not physical tampering of the
device enclosure occurred, such as illegal opening of the box. If
{{true}} device tampering is detected. If {{false}} no sign of device
tampering is detected. Tampering state MUST be persisted across
reboots and the device MUST never reset it back from {{true}} to
{{false}} even after a factory reset.
This object contains parameters relating to the UMTS system specific
information.
Current operational state of the UMTS FAP as defined in
{{bibref|ITU-X.731}}. If {{true}} the UMTS FAP is currently enabled.
If {{false}} the UMTS FAP is currently disabled.
Lock or unlock the UMTS FAP. This controls the administrative state
of the UMTS FAP as defined in {{bibref|ITU-X.731}}. If {{true}}
Unlocked with permission to serve traffic (and enable RF
transmitter(s)). If {{false}} Locked. Transition UMTS FAP to state
where it is NOT permitted to serve traffic. RF transmitter is
disabled. Given that this command controls the UMTS FAP's RF
transmitter, the underlying expectation is that the unlock is done
when all necessary conditions are met to allow the transmitter to key
on and provide service, including aspects such as:
# location verification (including meeting the governing regulatory
requirements)
# verifying the UMTS FAP configuration
# if physical tampering is supported and no physical tampering is
detected. The default value after power-on is {{false}}.
Current status of this UMTS FAP RF transmitter. {{true}} indicates
that the UMTS FAP Tx transmitter is on. {{false}} indicates that the
UMTS FAP Tx transmitter is off. This state is tied to the
Administrative state which is controlled by the ACS.
:When the ACS sets {{param|AdminState}} to {{true}}, then the UMTS
FAP has permission to turn on the RF transmitter.
:When the ACS sets {{param|AdminState}} to {{false}}, then the UMTS
FAP is not allowed to provide service and MUST turn off the RF
transmitter.
The value MUST be the path name of a row in the optional
''FAP.PerfMgmt.Config.'' table (see {{bibref|TR-262}}). This is the
performance management related configuration for the UMTS FAP. In
case of a multiple-radio-technology FAP product, each radio
technology can have its own PM configuration or share a common PM
configuration. In the former case, {{param}} can contain a unique
instance number. In the latter case, {{param}} under all radio
technologies can have the same instance number. If the referenced
object is deleted, the parameter value MUST be set to an empty
string.
This object contains parameters relating to the controlling of
self-configuration capabilities in the FAP.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the values of
{{param|.CellConfig.UMTS.RAN.CSG.UARFCNDLList}}. If {{true}} The FAP
self-configures the value. If {{false}} The ACS MUST provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.UMTS.RAN.RF.PrimaryScramblingCode}}. If {{true}}
the FAP self-configures the value. If {{false}} the ACS MUST provide
the specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.UMTS.RAN.RF.MaxFAPTxPowerExpanded}}. If {{true}}
The FAP self-configures the value. If {{false}} The ACS MUST provide
the specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.UMTS.RAN.RF.PCPICHPower}}. If {{true}} The FAP
self-configures the value. If {{false}} The ACS MUST provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.UMTS.RAN.RF.MaxULTxPower}}. If {{true}} The FAP
self-configures the value. If {{false}} The ACS MUST provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the values of
{{param|.CellConfig.UMTS.CN.LACRAC}} and
{{param|.CellConfig.UMTS.RAN.URAList}}. If {{true}} The FAP
self-configures the value. If {{false}} The ACS MUST provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the values in the object
{{object|.CellConfig.UMTS.RAN.NeighborList.}} If {{true}} The FAP
self-configures the value. If {{false}} The ACS MUST provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine Cell Selection/Reselection-related
parameters in {{object|.CellConfig.UMTS.RAN.CellSelection.}} If
{{true}} The FAP self-configures the value. If {{false}} The ACS MUST
provide the specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine intra-frequency measurement -related
parameters in {{object|.CellConfig.UMTS.RAN.IntraFreqMeas.}} If
{{true}} The FAP self-configures the value. If {{false}} The ACS MUST
provide the specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine inter-frequency measurement -related
parameters in {{object|.CellConfig.UMTS.RAN.InterFreqMeas.}} If
{{true}} The FAP self-configures the value. If {{false}} The ACS MUST
provide the specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine inter-RAT measurement -related parameters in
{{object|.CellConfig.UMTS.RAN.InterRATMeas.}} If {{true}} The FAP
self-configures the value. If {{false}} The ACS MUST provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine UE internal measurement-related parameters
in {{object|.CellConfig.UMTS.RAN.UEInternalMeas.}} If {{true}} The
FAP self-configures the value. If {{false}} The ACS MUST provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitInUse}}. If {{true}}
the FAP self-configures the value, based on the limits specified in
{{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitLowerValue}} and
{{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitUpperValue}}. If
{{false}} the ACS must provide the specific value to be used.
This object contains parameters relating to the Gateways that FAP is
connected to.
First SecGW the FAP attempts to establish connection with. Either
hostname or IPaddress.
Second SecGW the FAP attempts to establish connection with. Either
hostname or IPaddress.
Third SecGW the FAP attempts to establish connection with. Either
hostname or IPaddress.
First FAPGW the FAP attempts to establish connection with. Either
hostname or IPaddress.
Second FAPGW the FAP attempts to establish connection with. Either
hostname or IPaddress.
Third FAPGW the FAP attempts to establish connection with. Either
hostname or IPaddress.
Port number of FAPGW used for initial Iuh SCTP contact. This value is
specified as 29169 according to IANA definition per
{{bibref|IANA-portnumbers}}, registered on 2009-09-08. Use of
IANA-defined value is recommended.
This object contains parameters relating to the LTE system specific
information.
Current operational state of the LTE FAP as defined in
{{bibref|ITU-X.731}}. If {{true}} the LTE FAP is currently enabled.
If {{false}} the LTE FAP is currently disabled.
Lock or unlock the LTE FAP. This controls the administrative state of
the LTE FAP as defined in {{bibref|ITU-X.731}}. If {{true}} Unlocked
with permission to serve traffic (and enable RF transmitter(s)). If
{{false}} Locked. Transition LTE FAP to state where it is NOT
permitted to serve traffic. RF transmitter is disabled. Given that
this command controls the LTE FAP's RF transmitter, the underlying
expectation is that the unlock is done when all necessary conditions
are met to allow the transmitter to key on and provide service,
including aspects such as:
# location verification (including meeting the governing regulatory
requirements)
# verifying the LTE FAP configuration
# if physical tampering is supported and no physical tampering is
detected. The default value after power-on is {{false}}.
Current status of this LTE FAP RF transmitter. {{true}} indicates
that the LTE FAP Tx transmitter is on. {{false}} indicates that the
LTE FAP Tx transmitter is off. This state is tied to the
Administrative state which is controlled by the ACS.
:When the ACS sets {{param|AdminState}} to {{true}}, then the LTE FAP
has permission to turn on the RF transmitter.
:When the ACS sets {{param|AdminState}} to {{false}}, then the LTE
FAP is not allowed to provide service and MUST turn off the RF
transmitter.
The value MUST be the path name of a row in optional the
''.FAP.PerfMgmt.Config.'' table (see {{bibref|TR-262}}). This is the
performance management related configuration for the LTE FAP. In case
of a multiple-radio-technology FAP product, each radio technology can
have its own PM configuration or share a common PM configuration. In
the former case, {{param}} can contain a unique instance number. In
the latter case, {{param}} under all radio technologies can have the
same instance number. If the referenced object is deleted, the
parameter value MUST be set to an empty string.
This object contains parameters relating to the Gateways that the LTE
FAP is connected to.
First SecGW the LTE FAP attempts to establish connection with. Either
hostname or IPaddress.
Second SecGW the LTE FAP attempts to establish connection with.
Either hostname or IPaddress.
Third SecGW the LTE FAP attempts to establish connection with. Either
hostname or IPaddress.
{{list}} Each item is a S1 signaling connection end point (-GW or
MME) the LTE FAP attempts to establish connection with. It is in the
form of either hostname or IPaddress. LTE FAP's behavior in terms of
the number of S1 connection to established with is determined by
{{param|S1ConnectionMode}} parameter. If {{param|S1ConnectionMode}}
has the value of {{enum|One|S1ConnectionMode}}, then LTE FAP attempts
to establish S1 connection with only one address following the
ordering of the list. If {{param|S1ConnectionMode}} has the value of
{{enum|All|S1ConnectionMode}}, then LTE FAP attempts to establish
connection with all addresses in the list.
Indicates how many of the configured far-end S1 link address(es),as
defined in {{param|S1SigLinkServerList}}, LTE FAP SHOULD attempt to
establish connection with simultaneously. If {{param}} parameter is
not explicitly configured, then LTE FAP shall assume the value to be
{{enum|One|S1ConnectionMode}} as default.
Port number of S1AP signaling connection end point (-GW or MME) used
for initial S1 SCTP contact. This value is specified as 36412
according to IANA definition per {{bibref|IANA-portnumbers}},
registered on 2009-09-01. Use of IANA-defined value is recommended.
This object contains parameters relating to the configuration for the
control portions of a CDMA2000 FAP.
A string containing one of operator's home domains in URI format. FAP
is preconfigured with a default home domain, which can be overwritten
later by ACS. See {{bibref|3GPP2-X.S0059}}. If
the''.ManagementServer.URL'' is null, then the FAP shall use the
value of this attribute to construct the ''.ManagementServer.URL''
attribute. If {{param|.FAPControl.CDMA2000.Gateway.SecGWServer1}} is
null, then the FAP shall use the value of this attribute to construct
the {{param|.FAPControl.CDMA2000.Gateway.SecGWServer1}} attribute. If
the FAP is unable to connect to the management server indicated by
the value of the ''.ManagementServer.URL'' attribute and this
attribute is not null, the FAP may use the value of this attribute to
construct the ''.ManagementServer.URL'' attribute. If the FAP is
unable to connect to any security gateway indicated by the value of
the {{param|.FAPControl.CDMA2000.Gateway.SecGWServer1}},
{{param|.FAPControl.CDMA2000.Gateway.SecGWServer2}}, and
{{param|.FAPControl.CDMA2000.Gateway.SecGWServer3}} attributes and
this attribute is not null, the FAP may use the value of this
attribute to construct the
{{param|.FAPControl.CDMA2000.Gateway.SecGWServer1}} attribute.
Enable or disable remote IP access service as defined in
{{bibref|3GPP2-X.S0059}}. If {{true}} remote IP access is enabled. If
{{false}} remove IP access is disabled.
The value MUST be the path name of a row in the
''.FAP.PerfMgmt.Config.'' table. This is the performance management
related configuration for the CDMA2000 FAP. In case of a
multiple-radio-technology FAP product, each radio technology can have
its own PM configuration or share a common PM configuration. In the
former case, {{param}} can contain a unique instance number. In the
latter case, {{param}} under all radio technologies can have the same
instance number. If the referenced object is deleted, the parameter
value MUST be set to an empty string.
This object contains parameters related to time syncronization with
CDMA2000 System Time (see {{bibref|3GPP2-C.S0005}}).
The local time zone for CDMA2000 operational purposes. E.g., "+HH:MM
JST" for Japan. See {{bibref|3GPP2-C.S0005}}.
The current CDMA System Time (see {{bibref|3GPP2-C.S0005}}),
expressed as date and time in the CPE's local time zone. The format
of this field is "YYYY-MM-DDThh:mm:ss.sTZD" (e.g.,
1997-07-16T19:20:30.45+01:00), where: YYYY = four-digit year MM =
two-digit month (01=January, etc.) DD = two-digit day of month (01
through 31) hh = two digits of hour (00 through 23) (am/pm NOT
allowed) mm = two digits of minute (00 through 59) ss = two digits of
second (00 through 59) s = one or more digits representing a decimal
fraction of a second TZD = time zone designator (Z or +hh:mm or
-hh:mm)
Number of leap seconds (in {{units}} to be applied between
CurrentLocalTime and CDMA System Time. See {{bibref|3GPP2-C.S0005}}.
Whether or not daylight savings time is in use in the FAP's local
time zone with respect to CDMA2000 System Time (see
{{bibref|3GPP2-C.S0005}}). {true}} if daylight savings time is being
used; otherwise {{false}}. See {{bibref|3GPP2-C.S0005}}.
This object contains all global attributes of the 1xFemto application.
Administrative state for 1x
Operational state of the 1x
Current status of this RF transmitter. {{true}} indicates that the 3G
Tx transmitter is on. {{false}} indicates that the 3G Tx transmitter
is off. This state is tied to the Administrative state which is
controlled by the ACS. When the ACS sets AdminState to {{true}}, then
the FAP has permission to turn on the RF transmitter. When the ACS
sets AdminState to {{false}}, then the FAP is not allowed to provide
service and MUST turn off the RF transmitter.
If Daylight Savings Time is being used with respect to CDMA2000 1x
overhead parameters (see {{bibref|3GPP2-C.S0005}}), then {{param}}
should be set to {{true}}. Otherwise, {{param}} should be set to
{{false}}.
Protocol revision supported by the FAP.
{{param}} triggers a re-registration of all mobiles. The FAP triggers
re-registration of all registered mobiles everytime this number
changes
The period (in {{units}}) the session of an unauthorized user is kept
alive after an emergency call.
This is the location area code.
This is the FAP's MSCID. This ID is used in PANI header.
Indicates whether the FAP performs active hand-in from another base
station. If {{true}} active hand-in is enabled; if {{false}} active
hand-in is disabled.
CDMA2000 1x active handin operational parameters.
Indicates whether the FAP performs active hand-in measurement if a
request is received. If {{true}} active hand-in measurement is
enabled; if {{false}} active hand-in measurement is disabled.
The minimum duration in {{units}} for which FAP should take a
mobile's RL pilot strength measurements for active hand-in purpose
when directed by the network. Instead of continuous measurement for
this entire duration, a FAP can make multiple measurements by
sampling over shorter durations. In such a case, this value specifies
the minimum time separation required between the first and last
measurement samples.
The threshold (in {{units}}) for the FAP to report an active hand-in
measurement. If the metric to be reported is below the threshold, the
FAP may not send any report.
This object contains parameters relating to the controlling of
self-configuration capabilities in the FAP.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the values of
{{param|.CellConfig.CDMA2000.OneX.RAN.RF.RFCNFL}}. If {{true}}, the
FAP self-configures the value. If {{false}}, the ACS must provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.CDMA2000.OneX.RAN.RF.PilotPN}}. If {{true}} the
FAP self-configures the value. If {{false}} the ACS must provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.CDMA2000.OneX.RAN.RF.MaxFAPTxPower}}. If {{true}}
the FAP self-configures the value. If {{false}} the ACS must provide
the specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.CDMA2000.Beacon.MaxFAPBeaconTxPower}}. If
{{true}}, the FAP self-configures the value. If {{false}}, the ACS
must provide the specific value to be used.
CDMA2000 FAP Security Gateway operational parameters.
First SecGW the FAP attempts to contact. Either FQDN or IP address
Second SecGW the FAP attempts to contact. Either FQDN or IP address
Third SecGW that the FAP attempts to contact. Can contain either FQDN
or IP address
Counter indicating how many times FAP has switched between SecGW
Operational parameters for the HRPD portion of a CDMA2000 FAP.
Current operational state of the FAP as defined in ITU-X.731 [32]. If
{{true}} the FAP is currently enabled. If {{false}} the FAP is
currently disabled.
Lock or unlock the FAP. This controls the administrative state of the
FAP as defined in ITU-X.731 [32]. If {{true}} Unlocked with
permission to serve traffic (and enable RF transmitter(s)). If
{{false}} Locked. Transition FAP to state where it is NOT permitted
to serve traffic. RF transmitter is disabled. Given that this command
controls the FAP's RF transmitter, the underlying expectation is that
the unlock is done when all necessary conditions are met to allow the
transmitter to key on and provide service, including aspects such as:
location verification (including meeting the governing regulatory
requirements) verifying the FAP configuration if physical tampering
is supported and no physical tampering is detected. The default value
after power-on is {{false}}.
Current status of this RF transmitter. {{true}} indicates that the 3G
Tx transmitter is on. {{false}} indicates that the 3G Tx transmitter
is off. This state is tied to the Administrative state which is
controlled by the ACS. When the ACS sets AdminState to {{true}}, then
the FAP has permission to turn on the RF transmitter. When the ACS
sets AdminState to {{false}}, then the FAP is not allowed to provide
service and MUST turn off the RF transmitter.
Indicates whether the FAP performs A13 session transfer. If {{true}}
A13 session transfer is enabled; if {{false}} A13 session transfer is
disabled.
Indicates whether the FAP can assign local IP address to capable ATs.
If {{true}} local IP address is assigned.; if {{false}} local IP
address is not assigned.
This object contains parameters relating to the controlling of
self-configuration capabilities in the FAP.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the values of
{{param|.CellConfig.CDMA2000.HRPD.RAN.RF.RFCNFL}}. If {{true}}, the
FAP self-configures the value. If {{false}}, the ACS must provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.CDMA2000.HRPD.RAN.RF.PilotPN}}. If {{true}}, the
FAP self-configures the value. If {{false}}, the ACS must provide the
specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.CDMA2000.HRPD.RAN.RF.MaxFAPTxPower}} . If
{{true}}, the FAP self-configures the value. If {{false}}, the ACS
must provide the specific value to be used.
Indicates whether the self-configuration capability in the FAP is
used or not to determine the value of
{{param|.CellConfig.CDMA2000.Beacon.MaxHRPDBeaconTxPower}}. If
{{true}} the FAP self-configures the value. If {{false}} The ACS must
provide the specific value to be used.
This object contains attributes related to A13 Session Transfer
{{numentries}}
{{numentries}}
HRPD ColorCode to UATI Mapping Table number of entries.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Color Code mapped to UATI104 in the following field
The UATI104 of the AT that accesses with the ColorCode field
This object contains attributes related to A13 Session Transfer
Enables or disables the {{object}} entry.
{{datatype|expand}}
The number of MSBs (in {{units}}) in the following field that is part
of HRPDSubnet
The {{param|HRPDSubnetLength}} MSBs of this field contain the HRPD
subnet that maps to the IP address in the following field
This field contains the IP address of A13 endpoint that corresponds
to the HRPD subnet
This object contains parameters relating to Access Management for the
different radio technologies.
This object contains parameters relating to Access Management for UMTS
FAP (ACL, CSG, LIPA). Closed Subscriber Group (CSG) service behavior is
specified in {{bibref|3GPP-TS.22.011}}. Note: Cell barring and 3GPP
access class parameters are contained in
{{object|.CellConfig.UMTS.RAN.CellRestriction.}} (UMTS FAP).
Indicates the type of access mode the FAP operates in. {{enum}} When
the value is not {{enum|Open Access}} non-CSG-capable UE are handled
according to {{param|NonCSGUEAccessDecision}}. Note: This parameter
controls the setting of the CSGindicator bit, specified in MIB in
{{bibref|3GPP-TS.25.331}}.
FAP does not enforce access control. CSG Identity is not
broadcast.
FAP operates as a CSG cell.
FAP operates as a CSG cell where at the same time, non-CSG
members (incl pre-Rel8 UE) are allowed access.
Indicates how the access decision is made for non-CSG-capable UE.
Parameter is ignored when {{param|AccessMode}} is {{enum|Open
Access|AccessMode}}.
FAP restricts access to members of ACL
FAP queries FGW and acts accordingly.
FAP allows access. Other entity in core MAY impose
restrictions.
Indicates how the access decision is made for CSG-capable UE.
Parameter is ignored when {{param|AccessMode}} is {{enum|Open
Access|AccessMode}}. If {{true}} access decision is determined the
same way as for {{param|NonCSGUEAccessDecision}}. (E.g. if core
network doesn't (yet) support full CSG functionality.) If {{false}}
FAP always allows access for CSG-capable UE. CSG enforcement is
performed by MSC/SGSN (with support from HSS), or by FGW.
{{bibref|3GPP-TS.22.011}}
Maximum number of concurrent UEs allowed at a cell. Valid for any
{{param|AccessMode}}. A value of -1 allows an unlimited number of
concurrent UEs up to the limit of FAP capacity. The setting does not
affect emergency calls.
Maximum number of concurrent CSG member UEs allowed at a hybrid or
closed cell. A value of -1 allows an unlimited number of CSG members
up to the limit of FAP capacity. The setting cannot be larger than
the value of {{param|MaxUEsServed}}. The setting does not affect
emergency calls. {{bibref|3GPP-TS.22.011}},
{{bibref|3GPP-TS.22.220}}.
Maximum number of concurerent non-CSG member UEs allowed at a hybrid
cell. Valid only if {{param|AccessMode}} is {{enum|Hybrid
Access|AccessMode}}. The setting cannot be larger than the value of
{{param|MaxUEsServed}}. The setting does not affect emergency calls.
Maximum percentage of physical resource that can be assigned to
non-CSG members aggregately at one time. In UMTS FAP, this applies to
RB resource.
Home NodeB name. An operator-defined string that is broadcast by a
CSG cell or a hybrid cell and displayed on the UE for the purpose of
manual cell selection or indication that the UE is camped on the cell
as specified in {{bibref|3GPP-TS.22.220|Section 5.4.2}}. Corresponds
to parameter 'hnb-Name' specified in SIB20 in
{{bibref|3GPP-TS.25.331|Section 10.2.48.8.23}}.
Defines the Closed Subscriber Group of the Access Control List. The
UMTS FAP broadcasts this CSG ID in SIB3 depending on the AccessMode.
The LTE FAP broadcasts this in SIB1, and corresponds to parameter
csg-Identity in SIB1 in {{bibref|3GPP-TS.36.331}}.
{{list}} Each entry is an IMSI.
The maximum number of entries available in the
{{object|.AccessMgmt.UMTS.MemberDetail.{i}.}} table.
{{numentries}}
Details for CSG and Non-CSG members.
Enables or disables the MemberDetail entry.
{{datatype|expand}}
International Mobile Subscriber Identity of the UE.
Mobile Station International Subscriber Identity Number. Set to
{{empty}} if unknown.
Time when the ACL membership expires. An Unknown Time value, as
defined in {{bibref|TR-106a2|Section 3.2}}, indicates that the
membership doesn't expire. Upon expiry the FAP MUST remove the IMSI
from the {{param|.AccessMgmt.UMTS.AccessControlList}}, but the entry
in {{object|.AccessMgmt.UMTS.MemberDetail.{i}.}} remains.
{{bibref|3GPP-TS.22.011}}
Local IP access for UMTS FAP.
Enables/disables the Local IP Access (LIPA) functionality.
This object contains parameters relating to Access Management, as
defined in {{bibref|3GPP-TS.32.592}}/ Closed Subscriber Group (CSG)
service behavior is specified in {{bibref|3GPP-TS.22.011}}. Note: Cell
barring and 3GPP access class parameters are contained in SIB1 in
{{bibref|3GPP-TS.36.331}}.
Indicates the type of access mode the FAP operates in. {{enum}} Note:
This parameter controls the setting of the CSGindicator bit,
specified in SIB1 in {{bibref|3GPP-TS.36.331}}.
Access control is not enforced. CSG Identity is not broadcast.
LTE FAP operates as a CSG cell.
LTE FAP operates as a CSG cell where at the same time, non-CSG
members are allowed access.
Maximum number of concurrent UEs allowed at a cell. Valid for any
{{param|AccessMode}}. A value of -1 allows an unlimited number of
concurrent UEs up to the limit of FAP capacity. The setting does not
affect emergency calls.
Maximum number of concurrent CSG member UEs allowed at a hybrid or
closed cell. A value of -1 allows an unlimited number of CSG members
up to the limit of FAP capacity. The setting cannot be larger than
the value of {{param|MaxUEsServed}}. The setting does not affect
emergency calls. {{bibref|3GPP-TS.22.011}},
{{bibref|3GPP-TS.22.220}}.
Maximum number of concurerent non-CSG member UEs allowed at a hybrid
cell. Valid only if {{param|AccessMode}} is {{enum|Hybrid
Access|AccessMode}}. The setting cannot be larger than the value of
{{param|MaxUEsServed}}. The setting does not affect emergency calls.
Maximum percentage of physical resource that can be assigned to
non-CSG members aggregately at one time. This applies to PDSCH
physical resource blocks.
Defines the Closed Subscriber Group of the Access Control List. The
LTE FAP broadcasts this in SIB1, and corresponds to parameter
csg-Identity in SIB1 in {{bibref|3GPP-TS.36.331}}.
Home NodeB name. An operator-defined string that is broadcast by a
CSG cell or a hybrid cell and displayed on the UE for the purpose of
manual cell selection or indication that the UE is camped on the cell
as specified in {{bibref|3GPP-TS.22.220|Section 5.4.2}}. Corresponds
to parameter 'hnb-Name' specified in SIB9 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
Local IP access for LTE FAP.
Enables/disables the Local IP Access (LIPA) functionality.
This object contains configurable and observable attributes related to
CDMA2000 Access and Admission Control of the FAP.
Defines the access control mode of FAP. Allowed modes are Open,
Closed, and Signaling Association (refer to
{{bibref|3GPP2-A.S0024}}). AccessMode 2 (Hybrid) is not applicable to
CDMA2000 FAPs. 0- Open,1-Closed, 2-Reserved, 3-Signaling Association.
Total number of active calls allowed.
{{list}} (maximum item length 15). Each entry is an IMSI.
The maximum number of entries available in the
{{object|.AccessMgmt.CDMA2000.MemberDetail.{i}.}} table.
{{numentries}}
At most one enabled entry in this table can exist with a given value
for IMSI and HRPDIdentifierValue. The IMSI field may be empty.
Enables or disables the {{object}} entry.
{{datatype|expand}}
International Mobile Subscriber Identity of the UE.
Type of identifier used for the HRPD AT. 0-invalid 1-ESN 2-MEID
3-A12NAI. If IMSI in this record is valid, then this attribute is set
to 0.
The value of this attribute depends on {{param|HRPDIdentifierType}}.
ESN and MEID shall be defined as Hex.
The time that the current ACL membership expires.
Local IP access support as defined in 3GPP2
Local IP access support as defined in 3GPP2
Value of '0' indicates that the FAP shall allow only IP packets with
destination address matching the local IP subnet on Local IP access
interface. Value of '1' indicates that the FAP shall allow any IP
packets with destination address matching either the local IP subnet
or the subnets listed in Local IP egress filter parameter on Local IP
access interface. Value of '2' indicates that the FAP shall allow any
IP packets with destination addresses that do not match the Local IP
egress filter parameter on Local IP access interface.Value of '3'
indicates that the FAP shall allow any IP packets on the local IP
address interface.
This parameter is set to the IPCP Vendor Specific Option which the
FAP uses to send Local IP access packet filter on AN-PPP interface.
{{numentries}}
HRPD LIPA Egress Filter Table entries.
Enables or disables the {{object}} entry.
{{datatype|expand}}
The IP subnet of the egress filter to be installed to the AT. The
meaning of this field depends on the
{{param|.AccessMgmt.CDMA2000.LocalIPAccess.HRPD.FilterType}} field.
The length of the IP subnetmask associated with the IP subnet in the
previous field.
This object contains configurable and observable attributes related to
Access and Admission Control of the FAP, which are not not covered by
3GPP and 3GPP2 specifications.
Old Local IP access object, included on special request.
Enables/disables the Local IP Access (LIPA) functionality.
The maximum number of entries available in the
{{object|.AccessMgmt.Legacy.LocalIPAccess.Rule.{i}.}} table.
{{numentries}}
Policy for selecting traffic for local IP access. Originated traffic
will be NAT'ed. The rule is bi-directional, i.e. return traffic is
allowed. Rules do NOT affect traffic to/from the FAP itself (such as
TR-069 or control). The rules are applied to the mobile station data
traffic (PS-domain) via deep packet inspection or similar method.
Enables or disables the forwarding entry.
{{datatype|expand}}
Destination IP Address. {{empty}} indicates no destination address is
specified. An entry for which {{param}} and {{param|DestSubnetMask}}
are both {{empty}} is a default route.
Destination subnet mask (IPv4) or prefix (IPv6). {{empty}} indicates
no destination subnet mask or prefix is specified. If a destination
subnet mask or prefix is specified, {{param}} is ANDed with the
destination address before comparing with {{param|DestIPAddress}}.
Otherwise, the full destination address is used as-is. An entry for
which {{param|DestIPAddress}} and {{param}} are both {{empty}} is a
default route.
IP Protocol Identifier. -1 matches any protocol.
Action to be taken for traffic matching this rule.
Traffic is tunneled to FGW.
Traffic is NAPT to local interface
Specifies the egress interface when {{param|Action}} is set to
{{enum|NAPT|Action}}. {{reference}} layer-3 connection object.
Example:
InternetGatewayDevice.LANDevice.{i}.LANEthernetInterfaceConfig.{i}.
This object contains parameters relating to configuring the FAP.
This object contains parameters relating to configuring UMTS system
specific information.
This is the reference to the IPsec tunnel instance used by the UMTS
FAP. For all root data models, which use the tunnel definition
provided in {{bibref|TR-262}} (InternetGatewayDevice:1
{{bibref|TR-098}} and Device:1 {{bibref|TR-181i1}}) the {{param}}
MUST point to a row in the 'FAP.Tunnel.IKESA.{i}.' table, defined in
{{bibref|TR-262}}. If the root data model used is Device:2
{{bibref|TR-181i2}} than the {{param}} MUST point to IPsec tunnel
instance defined in {{bibref|TR-181i2}}. If the referenced object is
deleted, the parameter value MUST be set to an empty string. In case
of a multiple-radio-technology FAP product, each radio technology can
have its own tunnels or share common tunnels. In the former case,
{{param}} can contain a unique instance number. In the latter case,
{{param}} under all radio technologies can have the same instance
number.
This object contains parameters relating to configuring UMTS CN.
Type of Public Land Mobile Network (PLMN).
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
{{list}} Each item is a PLMNID. PLMN ID consists of Mobile Country
Code (MCC) and Mobile Network Code (MNC) {{bibref|3GPP-TS.23.003}},
{{bibref|3GPP-TS.24.008}}. Mobile Country Code consists of three
digits and uniquely identifies the country of domicile of the
subscriber. Mobile Network Code consists of two or three digits and
identifies the Home PLMN within a country. For a 2-digit MNC the
total string length of the PLMNID is 5.
Service Area Code (SAC) {{bibref|3GPP-TS.23.003}}. The concatenation
of PLMN ID (MCC+MNC), LAC, and SAC uniquely identifies the Service
Area ID (SAI).
Service Area Code (SAC) for broadcast. The format of this parameter
is the same with {{param|SAC}}, and it uniquely identifies the
Service Area ID (SAI) for Earthquake and Tsunami Warning Services
(ETWS) {{bibref|3GPP-TS.25.469|Section 9.1.3}}.
{{list}} Each item is a LAC/RAC combination expressed in the
following format:
:<LAC or LACrange>':'<RAC or RACrange> Where LAC and RAC
are single values, while LACrange and RACrange are inclusive and can
be expressed in the following format:
:<Start-value>".."<End-value> Location Area Code (LAC)
consists of up to 5 numerical characters. The concatenation of PLMN
ID (MCC+MNC) and LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}}
{{bibref|3GPP-TS.25.413|Section 9.2.3.6}}. Routing Area Code (RAC)
consists of up to 3 numerical characters. The concatenation of PLMN
ID (MCC+MNC), LAC, and RAC uniquely identifies the Routing Area ID
(RAI). {{bibref|3GPP-TS.23.003|Section 4.2}}
{{bibref|3GPP-TS.25.413|Section 9.2.3.7}}. The FAP is to select one
LAC and RAC from the combination(s) expressed in this parameter for
use in {{param|LACInUse}} and {{param|RACInUse}} respectively. If a
LAC occurs more than once in the list, this shall not increase the
chance that it is selected over other LAC values in the list. The
following are examples of the valid LACRAC combination formats:
:"64000:210"
::(one list item with single value for LAC and RAC)
:"64000..64100:210, 64101:211"
::(two list items, first item has a LAC range)
:"64000:210..214, 64001:215..219"
::(two list items, both items have a RAC range for a specific LAC
value)
:"64000..64100:210..214"
::(one list item both have a LAC range and a RAC range)
The LAC being used by the FAP. Self-configuration for LAC is
controlled by {{param|.Capabilities.UMTS.SelfConfig.LACRACURAConfig}}
from an availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.LACRACURASelfConfigEnable}} from
an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in {{param|LACRAC}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains the first LAC value in {{param|LACRAC}}.
The RAC being used by the FAP. Self-configuration for RAC is
controlled by {{param|.Capabilities.UMTS.SelfConfig.LACRACURAConfig}}
from an availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.LACRACURASelfConfigEnable}} from
an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in {{param|LACRAC}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains the first RAC value in {{param|LACRAC}}.
This object contains parameters relating to configuring the CS domain
of the UMTS CN.
T3212 timeout value specified in {{units}}
{{bibref|3GPP-TS.24.008|section 10.5.1.12.2}}. The values are
implemented by steps of 360 {{units}}, which aligns with values in
decihours in {{bibref|3GPP-TS.24.008}}. The value of 0 is used for
infinite timeout value i.e. periodic updating shall not be used.
Indicates the UE behavior regarding IMSI attach/detach procedure to
the CN {{bibref|3GPP-TS.24.008}}. If {{true}} UE SHALL apply IMSI
attach and detach procedure If {{false}} UE SHALL NOT apply IMSI
attach and detach procedure
This object contains parameters relating to configuring the PS domain
of the UMTS CN.
Network Mode of Operation of the CN. {{bibref|3GPP-TS.23.060}}
{{bibref|3GPP-TS.24.008}} If {{true}} (Network Mode of Operation II)
Combined procedures between CS and PS domain are not supported (i.e.
Gs interface is not present). If {{false}} (Network Mode of Operation
I) Combined procedures between CS and PS domain are supported (i.e.
Gs interface is present).
This object contains parameters relating to the RAN-level
configuration.
{{list}} Each item is a URA (UTRAN Registration Area) to which the
FAP belongs. The order of the URA values has no significance.
{{bibref|3GPP-TS.25.331|Section 10.3.2.6}}
The URA being used by the FAP. Self-configuration for URA is
controlled by {{param|.Capabilities.UMTS.SelfConfig.LACRACURAConfig}}
from an availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.LACRACURASelfConfigEnable}} from
an enabled perspective. If the FAP's self-configuration capability
for URA is available and enabled, this parameter indicates the value
selected by the FAP among the choices provided in {{param|URAList}}.
If the self-configuration capability is not available or not enabled,
then this parameter contains the first URA value in
{{param|URAList}}.
RNC-ID allocated to the FAP. It uniquely identifies an RNC within a
PLMN. Normally, RNC-ID consists of 12 bits (i.e. a range of
[0:4095]). However, if the value is larger than 4095, then Extended
RNC-ID (range of [4096:65535]) is used in RANAP. The RNC-ID and
Extended RNC-ID are combined into a single parameter here as there is
no explicit need to have them separated.
{{bibref|3GPP-TS.25.413|Section 9.2.1.39}}
Cell Identity. {{bibref|3GPP-TS.25.401|Section 6.1.5}}
Guard period in {{units}} before sending a "RANAP:RESET ACKNOWLEDGE"
message towards the Femto GW. {{bibref|3GPP-TS.25.413|Section 9.5}}
Maximum amount of time in {{units}} that the FAP SHOULD wait for
receiving a "RANAP:RESET ACKNOWLEDGE" message from the Femto GW after
sending a Reset to the Femto GW. {{bibref|3GPP-TS.25.413|Section
9.5}}
Maximum number for RESET procedure that can be repeated in FAP.
{{bibref|3GPP-TS.25.413|Section 8.26.3.2}}
Amount of time in {{units}} used to determine when the additional
level of traffic reduction in CN overload SHOULD take place. While
this timer is running all OVERLOAD messages or signalling pointing to
congested information received by the FAP are ignored.
{{bibref|3GPP-TS.25.413|Section 9.5}}
Amount of time in {{units}} used to determine when the CN overload
can be considered cleared. While this timer is running, the FAP is
not allowed to increase traffic. {{bibref|3GPP-TS.25.413|Section
9.5}}
Maximum amount of time in {{units}} for Data Forwarding at FAP. Timer
is started when a "RANAP:SRNS Data Forward Command" message (or a
"RANAP:Relocation Command" message) is received. At timer expiry the
"SRNS Data Forwarding" procedure is completed.
{{bibref|3GPP-TS.25.413|Section 9.5}}
Maximum amount of time in {{units}} for the Relocation Preparation
procedure. Timer is started when a "RANAP:Relocation Required"
message is sent. Timer is stopped when a "RANAP:Relocation Command"
or a "RANAP:Relocation Preparation Failure" message is received.
{{bibref|3GPP-TS.25.413|Section 9.5}}
Maximum amount of time in {{units}} for protection of the overall
Relocation procedure. Timer is started when a "RANAP:Relocation
Command" message is received. Timer is stopped when a "RANAP:Iu
Release Command" is received or the relocation procedure is
cancelled. {{bibref|3GPP-TS.25.413|Section 9.5}}
The "realm" portion of the HNB-ID where HNB-ID is defined in
{{bibref|3GPP-TS.25.469}} and is shown as follows:
0<IMSI>@<realm> Or
1<OUI>-<SerialNumber>@<realm> The other identifiers
before "@" are device dependent values. Both <OUI> and
<SerialNumber> are defined in {{bibref|TR-069a2|Table 36}}.
<IMSI> is obtained from the USIM if it is equipped in the FAP.
Enables/disables the HSDPA function in the FAP. If {{true}} HSDPA is
enabled (this is equivalent to a "1" in
{{bibref|3GPP-TS.32.642|Section 6.3.9}}) If {{false}} HSDPA is
disabled (this is equivalent to a "0" in
{{bibref|3GPP-TS.32.642|Section 6.3.9}})
Enables or disables HSDPA in the cell. If {{true}} HSDPA is enabled
(this is equivalent to a "1" in {{bibref|3GPP-TS.32.642|Section
6.3.9}}) If {{false}} HSDPA is not enabled (this is equivalent to a
"0" in {{bibref|3GPP-TS.32.642|Section 6.3.9}}) If {{param|HSFlag}}
is {{false}} then this value MUST be {{false}}.
The number of codes at the defined spreading factor (SF=16), within
the complete code tree. {{bibref|3GPP-TS.32.642|Section 6.3.9}}
The number of HS-SCCHs for one cell. {{bibref|3GPP-TS.32.642|Section
6.3.9}}
This object contains parameters relating to the Closed Subscriber Group
(CSG).
The CSG-indicator Information Element (IE) in the Master Information
Block reflects the access mode of the CSG cell. It is hence dependent
on the value of {{param|.AccessMgmt.UMTS.AccessMode}}. If {{true}}
the CSG-indicator IE is present, reflecting access to the CSG cell is
closed. If {{false}} the CSG-indicator IE is absent, reflecting
access to the CSG cell is not closed. {{bibref|3GPP-TS.25.331|Section
10.2.48.8.1}}
{{list}} Each item is a UTRA Absolute Radio Frequency Channel Number
(UARFCN) in the DL direction dedicated to the CSG cells. {{param}} is
broadcast in SIB 11bis {{bibref|3GPP-TS.25.331|Section
10.2.48.8.14a}}. The corresponding UTRA Absolute Radio Frequency
Channel Number (UARFCN) in the UL direction is derived based on the
fixed offset applicable for the frequency band.
This object contains parameters relating to the Primary Scrambling Code
(PSC) split information for the CSG. Defined in SIB3/11bis
{{bibref|3GPP-TS.25.331|Section 10.3.2.8 and 10.3.2.9}}.
The value of this Information Element (IE) multiplied by 8 specifies
the start PSC value of the first PSC range as specified in
{{bibref|3GPP-TS.25.331|Section 8.6.2.4}}.
This Information Element (IE) specifies the number of PSCs reserved
for CSG cells in each PSC range.
If this Information Element (IE) is included, the UE shall calculate
the second PSC range as specified in {{bibref|3GPP-TS.25.331|Section
8.6.2.4}}. If this Information Element (IE) is not included, the UE
shall consider the second PSC range to be not present.
This object contains parameters related to cell selection and
reselection.
Which mechanism to use when doing CPICH quality measurements.
{{bibref|3GPP-TS.25.331|Section 10.3.7.47}}
Minimum required quality measure, specified in {{units}}.
{{bibref|3GPP-TS.25.331|Section 10.3.2.3 and Section 10.3.2.4}} This
value is only meaningful if {{param|QualityMeasureCPICH}} has the
value {{enum|Ec/No|QualityMeasureCPICH}} and it MUST otherwise be
ignored.
Offset for {{param|QqualMin}} specified in {{units}}.
{{bibref|3GPP-TS.25.331|Section 10.3.2.3}} This value is only
meaningful if {{param|QualityMeasureCPICH}} has the value
{{enum|Ec/No|QualityMeasureCPICH}} and it MUST otherwise be ignored.
Minimum required RX level in the cell, specified in {{units}}.
{{bibref|3GPP-TS.25.331|Section 10.3.2.3}} Only odd values are valid,
use of an even value MUST be rejected by the CPE. This value is only
meaningful if {{param|QualityMeasureCPICH}} has the value
{{enum|RSCP|QualityMeasureCPICH}} and it MUST otherwise be ignored.
Delta for the minimum required RX level in the cell, specified in
{{units}}. {{bibref|3GPP-TS.25.331|Section 10.3.2.3 and Section
10.3.2.4}} The actual value of {{param|QRxLevMin}} =
{{param|QRxLevMin}} + {{param}} This value is only meaningful if
{{param|QualityMeasureCPICH}} has the value
{{enum|RSCP|QualityMeasureCPICH}} and it MUST otherwise be ignored.
Offset for {{param|QRxLevMin}}, specified in {{units}}.
{{bibref|3GPP-TS.25.331|Section 10.3.2.3}} This value is only
meaningful if {{param|QualityMeasureCPICH}} has the value
{{enum|RSCP|QualityMeasureCPICH}} and it MUST otherwise be ignored.
GSM and FDD Cell reselection hysteresis 1.
{{bibref|3GPP-TS.25.331|Section 10.3.2.3}} Only even values are
valid, use of an odd value MUST be rejected by the CPE. This value is
only meaningful if {{param|QualityMeasureCPICH}} has the value
{{enum|RSCP|QualityMeasureCPICH}} and it MUST otherwise be ignored.
FDD Cell reselection hysteresis 2. {{bibref|3GPP-TS.25.331|Section
10.3.2.3}} Only even values are valid, use of an odd value MUST be
rejected by the CPE. This value is only meaningful if
{{param|QualityMeasureCPICH}} has the value
{{enum|RSCP|QualityMeasureCPICH}} and it MUST otherwise be ignored.
By default when {{param|QHyst1s}} is set and {{param}} is not, then
the value for {{param}} SHOULD match the value of {{param|QHyst1s}}.
A member of the set of parameters used for cell reselection
functionality. A UE triggers the reselection of a new cell if the
cell reselection criteria are fulfilled during the time interval in
{{units}}. Parameter defined in SIB3 {{bibref|3GPP-TS.25.331|Section
10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the threshold for intra-frequency
measurements, and for the HCS measurement rules. Only even values are
valid, use of an odd value MUST be rejected by the CPE. Parameter
defined in SIB3 {{bibref|3GPP-TS.25.331|Section 10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the threshold for inter-frequency
measurements, and for the HCS measurement rules. Only even values are
valid, use of an odd value MUST be rejected by the CPE. Parameter
defined in SIB3 {{bibref|3GPP-TS.25.331|Section 10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the threshold for intrafrequency and
interfrequency measurement rules in HCS. Below this limit in the
serving cell, the UE initiates measurements of all intrafrequency and
interfrequency neighbouring cells of the serving cell. Only odd
values are valid, use of an even value MUST be rejected by the CPE.
Parameter defined in SIB3 {{bibref|3GPP-TS.25.331|Section 10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the RAT (GSM) specific threshold for inter-RAT
measurement rules. Only even values are valid, use of an odd value
MUST be rejected by the CPE. Parameter defined in SIB3
{{bibref|3GPP-TS.25.331|Section 10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the RAT (GSM) specific threshold for inter-RAT
measurement rules in HCS. Only odd values are valid, use of an even
value MUST be rejected by the CPE. Parameter defined in SIB3
{{bibref|3GPP-TS.25.331|Section 10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the threshold for skipping inter-RAT
measurement rules in HCS. Above this RAT (GSM) specific threshold in
the serving UTRA cell, the UE does not need to perform any inter-RAT
measurements. Only even values are valid, use of an odd value MUST be
rejected by the CPE. Parameter defined in SIB3
{{bibref|3GPP-TS.25.331|Section 10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the duration in seconds for evaluating the
allowed amount of cell reselections. If the number of cell
reselections during the time period defined by {{param}} exceeds
{{param|NonHCSNCR}}, high mobility has been detected. Parameter
defined in SIB3 {{bibref|3GPP-TS.25.331|Section 10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the maximum number of cell reselections. If
the number of cell reselections during the {{param|NonHCSTCRMax}}
time period exceeds the value of {{param}}, high mobility has been
detected. Parameter defined in SIB3 {{bibref|3GPP-TS.25.331|Section
10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the cell reselection hysteresis for reverting
from UE high-mobility measurements. The additional time period in
seconds before UE reverts to low-mobility measurements. When the
number of cell reselections during the time period defined by
{{param|TCRMax}} no longer exceeds {{param|NCR}}, UE continues
measurements during the time period defined by {{param|TCRMaxHyst}}.
Parameter defined in SIB3 {{bibref|3GPP-TS.25.331|Section 10.3.2.3}}.
A member of the set of parameters used for cell reselection
functionality. Defines the quality threshold levels for applying
prioritised hierarchical cell reselection.
{{bibref|3GPP-TS.25.331|Section 10.3.7.12 and Section 10.3.7.54a}}
A member of the set of parameters used for cell reselection
functionality. Indicate whether HCS is used in this cell or not.
{{bibref|3GPP-TS.25.331|Section 10.3.7.47}}
A member of the set of parameters used for cell reselection
functionality. Defines the HCS priority of this cell.
{{bibref|3GPP-TS.25.331|Section 10.3.7.12}}
A member of the set of parameters used for cell reselection
functionality. Defines the duration in seconds for evaluating the
allowed amount of cell reselections. If the number of cell
reselections during the time period defined by {{param}} exceeds
{{param|NCR}}, high mobility has been detected. Parameter defined in
SIB3 {{bibref|3GPP-TS.25.331|Section 10.3.7.12}}.
A member of the set of parameters used for cell reselection
functionality. Defines the maximum number of cell reselections. If
the number of cell reselections during the {{param|TCRMax}} time
period exceeds the value of {{param}}, high mobility has been
detected. Parameter defined in SIB3 {{bibref|3GPP-TS.25.331|Section
10.3.7.12}}.
A member of the set of parameters used for cell reselection
functionality. Defines the cell reselection hysteresis for reverting
from UE high-mobility measurements. The additional time period in
seconds before UE reverts to low-mobility measurements. When the
number of cell reselections during the time period defined by
{{param|TCRMax}} no longer exceeds {{param|NCR}}, UE continues
measurements during the time period defined by {{param}}. Parameter
defined in SIB3 {{bibref|3GPP-TS.25.331|Section 10.3.7.12}}.
A member of the set of parameters used for cell reselection
functionality. Defines the maximum transmit power level, specified in
{{units}}, that an UE MAY use when accessing the cell on RACH. Used
to calculate Pcompensation, which is: max(UE_TXPWR_MAX_RACH - P_MAX,
0), where UE_TXPWR_MAX_RACH is {{param}} and P_MAX is the max
transmit power for a UE. {{bibref|3GPP-TS.25.331|Section 10.3.2.3}}
{{bibref|3GPP-TS.25.304|Section 5.2.3}}
This object contains parameters related to miscellaneous RRC timers and
constants.
Timer measured in {{units}}. Only the following values are considered
valid:
:100, 200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800, 2000, 3000,
4000, 6000, and 8000 Any value other than those and the CPE MUST
reject the request. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section
13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. Only the following values are considered
valid:
:100, 200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800, 2000, 3000,
4000, 6000, and 8000 Any value other than those and the CPE MUST
reject the request. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section
13.1 and section 10.3.3.44}}.
Timer measured in {{units}}. Only the following values are considered
valid:
:100, 200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800, 2000, 3000,
4000, 6000, and 8000 Any value other than those and the CPE MUST
reject the request. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section
13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. -1 indicates an unbounded timer in which
there is no update. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section
13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.43}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.44}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.43}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.43}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.43}}.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.43}}. -1
indicates an unbounded timer in which there is no update.
Timer measured in {{units}}. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.43}}.
Counter. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section 13.1 and
Section 10.3.3.44}}.
Counter. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section 13.1 and
Section 10.3.3.43}}.
Counter. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section 13.1 and
Section 10.3.3.43}}.
Counter. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section 13.1 and
Section 10.3.3.43}}.
Counter. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section 13.1 and
Section 10.3.3.43}}.
Counter. Only the following values are considered valid: 1, 2, 4, 10,
20, 50, 100, 200, 400, 600, 800, and 1000. Any value other than those
and the CPE MUST reject the request. Defined in SIB1
{{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.44}}.
Counter. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section 13.1 and
Section 10.3.3.43}}.
Counter. Only the following values are considered valid:
:1, 2, 4, 10, 20, 50, 100, 200, 400, 600, 800, and 1000. Any value
other than those and the CPE MUST reject the request. Defined in
SIB1 {{bibref|3GPP-TS.25.331|Section 13.1 and Section 10.3.3.43}}.
Time period the UE has to wait before repeating the rejected
procedure. This is an IE used when sending RRC connection reject,
redirecting the requesting UE to another frequency. 0 indicates that
repetition is not allowed. {{bibref|3GPP-TS.25.331|Section
10.3.3.50}}.
This object contains parameters related to DRX parameters.
Defines the DRX cycle length coefficient for CS domain to optimize
paging in idle mode. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section
10.3.3.6}}. {{param}} refers to 'k' in the formula as specified in
{{bibref|3GPP-TS.25.304}}, Discontinuous reception. Used by the CN CS
domain to count paging occasions for discontinuous reception in Idle
Mode. The duration of the DRX cycle is 2 <power> k frames,
where 'k' is the used DRX cycle length coefficient for CN.
Defines the DRX cycle length coefficient for PS domain to optimize
paging in idle mode. Defined in SIB1 {{bibref|3GPP-TS.25.331|Section
10.3.3.6}}. {{param}} refers to 'k' in the formula as specified in
{{bibref|3GPP-TS.25.304}}, Discontinuous reception. Used by the CN PS
domain to count paging occasions for discontinuous reception in Idle
Mode. The duration of the DRX cycle is 2 <power> k frames,
where 'k' is the used DRX cycle length coefficient for CN.
Defines the DRX cycle length used by UTRAN to count paging occasions
for discontinuous reception in Connected Mode. The duration of the
DRX cycle is 2 <power> k frames, where 'k' is the used DRX
cycle length coefficient for UTRAN. {{param}} SHOULD be used by the
UTRAN/FAP for UEs in Cell_PCH/Cell_FACH state.
{{bibref|3GPP-TS.25.331|Section 10.3.3.49}}
This object contains parameters related to power control and RACH.
Used by the UE to calculate the initial output power, specified in
{{units}}, on PRACH according to the open loop power control
procedure. Parameter in SIB5. {{bibref|3GPP-TS.25.331|Section
10.3.6.11}}
Used for the Uplink Common Channel. Defines the Power ramp setup,
specified in {{units}}, on PRACH preamble when no acquisition
indicator (AI) is detected by the UE. Parameter in SIB5.
{{bibref|3GPP-TS.25.331|Section 10.3.6.54}}
Used for the Uplink Common Channel. Defines the maximum number of
preambles allowed in one preamble ramping cycle. PRACH Preamble
Retrans Max is part of "PRACH power offset" which is part of "PRACH
system information list". Parameter in SIB5.
{{bibref|3GPP-TS.25.331|Section 10.3.6.54}}
Persistence Scaling Factor for overload control. Parameter in SIB5.
The value is the scaling factor multiplied by 10, e.g. 2 is a scaling
factor of 0.2
Maximum number of RACH preamble cycles. Defines how many times the
PRACH preamble ramping procedure can be repeated before UE MAC
reports a failure on RACH transmission to higher layers. Maximum
number of RACH preamble cycles is part of "RACH transmission
parameters" which is part of "PRACH system information list" which is
part of SIB5. {{bibref|3GPP-TS.25.331|Section 10.3.6.67}}
RACH random back-off lower bound. {{param}} is the lower bound of the
waiting time in 10 millisecond increments (i.e. 1 corresponds to 10
ms and 50 corresponds to 500 ms). {{param}} is part of "RACH
transmission parameters" which is part of "PRACH system information
list" which is part of SIB5. {{bibref|3GPP-TS.25.331|Section
10.3.6.67}}
RACH random back-off upper bound. {{param}} is the Upper bound of the
waiting time in 10 millisecond increments (i.e. 1 corresponds to 10
ms and 50 corresponds to 500 ms). {{param}} is part of "RACH
transmission parameters" which is part of "PRACH system information
list" which is part of SIB5. {{bibref|3GPP-TS.25.331|Section
10.3.6.67}}
This object contains parameters related to cell access restriction.
Indicates whether the FAP is barred from service or not.
{{bibref|3GPP-TS.25.331|Section 10.3.2}}
When {{param|CellBarred}} is {{true}}, this indicates whether the
intra-frequency cell re-selection is allowed or not. {{param}} has no
meaning if {{param|CellBarred}} is {{false}} and MUST be ignored in
such cases. {{true}} means that intra-frequency cell re-selection is
allowed. {{false}} means that intra-frequency cell re-selection is
not allowed. {{bibref|3GPP-TS.25.331|Section 10.3.2}}
The time period in {{units}} during which the UE is barred from
accessing the FAP. {{bibref|3GPP-TS.25.331|Section 10.3.2}}
{{list}} Each entry is an Access Class that is barred from CS
service. The order of the list has no significance.
{{bibref|3GPP-TS.25.331|Section 10.3.2}}
{{list}} Each entry is an Access Class that is barred from PS
service. The order of the list has no significance.
{{bibref|3GPP-TS.25.331|Section 10.3.2}}
Indicates whether the FAP is reserved for operator use or not.
{{bibref|3GPP-TS.25.331|Section 10.3.2}}
This object contains parameters relating to the intra-freq HO control
parameters.
Defines the measurement quantity for intra-freq HO measurement when
the UE is in Cell-DCH state. Enumeration of: {{enum}}
{{bibref|3GPP-TS.25.331|Section 10.3.7.38}}
Defines the equivalent time constant of the low pass filter applied
to the CPICH quality measurements, or {{enum|CPICH
Ec/No|MeasurementQuantity}}. {{bibref|3GPP-TS.25.331|Section 8.6.7.2
and Section 10.3.7.9}}
{{list}} Each entry is an Event ID from the list of: 1a, 1b, 1c, 1d,
1e, 1f, 1g, 1h, 1i Defines the identity of the event used to trigger
UE reporting (in case of event-triggered reporting).
{{bibref|3GPP-TS.25.331|Section 10.3.7.34}} Since the FAP can
determine this on its own, it might not be necessary to configure it.
{{list}} Indicates which cells can trigger Event 1a. {{enum}}
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
{{list}} Indicates which cells can trigger Event 1b. {{enum}}
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
{{list}} Indicates which cells can trigger Event 1e. {{enum}}
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
{{list}} Indicates which cells can trigger Event 1f. {{enum}}
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
Defines a constant in the inequality criterion that needs to be
satisfied for an Event 1a to occur. Actual values of the range are
0.0 to 14.5 {{units}} in steps of 0.5 {{units}}. The value of
{{param}} divided by 2 yields the actual value of the range.
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
Defines a constant in the inequality criterion that needs to be
satisfied for an Event 1b to occur. Actual values of the range are
0.0 to 14.5 {{units}} in steps of 0.5 {{units}}. The value of
{{param}} divided by 2 yields the actual value of the range.
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
Defines the weighting factor for intra-freq HO measurement when the
UE is in Cell-DCH state. Actual values of the weighting factor are
0.0 to 2.0 in steps of 0.1. The value of {{param}} divided by 10
yields the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.39}}
Defines the weighting factor for intra-freq HO measurement when the
UE is in Cell-DCH state. Actual values of the weighting factor are
0.0 to 2.0 in steps of 0.1. The value of {{param}} divided by 10
yields the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.39}}
Defines the maximum number of cells allowed in the "active cell set"
for Event 1a to occur. {{bibref|3GPP-TS.25.331|Section 14.1.2 and
Section 10.3.7.39}}
Defines the maximum number of MEASUREMENT REPORT messages sent by the
UE in case of periodic reporting triggered by an Event 1a The value
-1 is used to represent an unbounded maximum.
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
Defines the maximum number of MEASUREMENT REPORT messages sent by the
UE in case of periodic reporting triggered by an Event 1c The value
-1 is used to represent an unbounded maximum.
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
Defines the transmission period in {{units}} of MEASUREMENT REPORT
messages sent by the UE in case of periodic reporting triggered by an
Event 1a. {{bibref|3GPP-TS.25.331|Section 14.1.2 and Section
10.3.7.39}}
Defines the transmission period in {{units}} of MEASUREMENT REPORT
messages sent by the UE in case of periodic reporting triggered by an
Event 1c. {{bibref|3GPP-TS.25.331|Section 14.1.2 and Section
10.3.7.39}}
Defines the hysteresis for intra-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps
of 0.5. The value of {{param}} divided by 2 yields the actual value
of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and
Section 14.1.2}}
Defines the hysteresis for intra-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps
of 0.5. The value of {{param}} divided by 2 yields the actual value
of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and
Section 14.1.2}}
Defines the hysteresis for intra-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps
of 0.5. The value of {{param}} divided by 2 yields the actual value
of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and
Section 14.1.2}}
Defines the hysteresis for intra-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps
of 0.5. The value of {{param}} divided by 2 yields the actual value
of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and
Section 14.1.2}}
Defines the hysteresis for intra-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps
of 0.5. The value of {{param}} divided by 2 yields the actual value
of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and
Section 14.1.2}}
Defines the hysteresis for intra-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps
of 0.5. The value of {{param}} divided by 2 yields the actual value
of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and
Section 14.1.2}}
Defines the time-to-trigger in {{units}} for intra-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39
and Section 10.3.7.64}}
Defines the time-to-trigger in {{units}} for intra-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39
and Section 10.3.7.64}}
Defines the time-to-trigger in {{units}} for intra-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39
and Section 10.3.7.64}}
Defines the time-to-trigger in {{units}} for intra-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39
and Section 10.3.7.64}}
Defines the time-to-trigger in {{units}} for intra-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39
and Section 10.3.7.64}}
Defines the time-to-trigger in {{units}} for intra-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39
and Section 10.3.7.64}}
Defines the reporting threshold for intra-freq HO measurement when
the UE is in Cell-DCH state. This is the "Threshold used frequency"
as defined in {{bibref|3GPP-TS.25.331|Section 10.3.7.39}}. Each valid
value of {{param|MeasurementQuantity}} has a different valid range.
{{enum|CPICH RSCP|MeasurementQuantity}} has a range of -120 dBm to
-25 dBm {{enum|CPICH Ec/No|MeasurementQuantity}} has a range of -24
dB to 0 dB {{enum|Pathloss|MeasurementQuantity}} has a range of 30 dB
to 165 dB
Defines the reporting threshold for intra-freq HO measurement when
the UE is in Cell-DCH state. This is the "Threshold used frequency"
as defined in {{bibref|3GPP-TS.25.331|Section 10.3.7.39}}. Each valid
value of {{param|MeasurementQuantity}} has a different valid range.
{{enum|CPICH RSCP|MeasurementQuantity}} has a range of -120 dBm to
-25 dBm {{enum|CPICH Ec/No|MeasurementQuantity}} has a range of -24
dB to 0 dB {{enum|Pathloss|MeasurementQuantity}} has a range of 30 dB
to 165 dB
Defines the minimum number of cells allowed in the "active cell set"
for Event 1c to occur. {{bibref|3GPP-TS.25.331|Section 14.1.2 and
Section 10.3.7.39}}
{{numentries}}
Table containing parameters relating to a particular instance of
intra-freq events.
Enables or disables this {{object}} entry.
{{datatype|expand}}
Each entry is an Event ID from the list of: {{enum}} Defines the
identity of the event used to trigger UE reporting (in case of
event-triggered reporting). {{bibref|3GPP-TS.25.331|Section
10.3.7.34}} This attribute is readable, as it is highly dependent on
how the FAP makes use of the event.
A free-form description of the way the event instance is meant to be
used. E.g. "hand-out to macro cells", "addition of enterprise HNB
cell to Active Set".
Defines the measurement quantity for intra-freq HO measurement when
the UE is in Cell-DCH state. Enumeration of: {{enum}}
{{bibref|3GPP-TS.25.331|Section 10.3.7.38}}
Defines the equivalent time constant of the low pass filter applied
to the CPICH quality measurements, or {{enum|CPICH
Ec/No|MeasurementQuantity}}. {{bibref|3GPP-TS.25.331|Section 8.6.7.2
and Section 10.3.7.9}}
{{list}} Indicates which cells can trigger the event instance.
{{enum}} {{bibref|3GPP-TS.25.331|Section 14.1.2 and Section
10.3.7.39}}
Applicable to events 1a, 1b, otherwise not needed. Defines a constant
in the inequality criterion that needs to be satisfied for an Event
1b to occur. Actual values of the range are 0.0 to 14.5 {{units}} in
steps of 0.5 {{units}}. The value of {{param}} divided by 2 yields
the actual value of the range. {{bibref|3GPP-TS.25.331|Section 14.1.2
and Section 10.3.7.39}}
Applicable to events 1a, 1b, otherwise not needed. Defines the
weighting factor for intra-freq HO measurement when the UE is in
Cell-DCH state. Actual values of the weighting factor are 0.0 to 2.0
in steps of 0.1. The value of {{param}} divided by 10 yields the
actual value of the weighting factor. {{bibref|3GPP-TS.25.331|Section
10.3.7.39}}
Applicable to events 1a, otherwise not needed. Defines the maximum
number of cells allowed in the "active cell set" for Event 1a to
occur. {{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
Applicable to events 1a, 1c, otherwise not needed. Defines the
maximum number of MEASUREMENT REPORT messages sent by the UE in case
of periodic reporting triggered by an Event 1a The value -1 is used
to represent an unbounded maximum. {{bibref|3GPP-TS.25.331|Section
14.1.2 and Section 10.3.7.39}}
Applicable to events 1a, 1c, otherwise not needed. Defines the
transmission period in {{units}} of MEASUREMENT REPORT messages sent
by the UE in case of periodic reporting triggered by an Event 1a.
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
Defines the hysteresis for intra-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps
of 0.5. The value of {{param}} divided by 2 yields the actual value
of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and
Section 14.1.2}}
Defines the time-to-trigger in {{units}} for intra-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39
and Section 10.3.7.64}}
Applicable to events 1e, 1f, otherwise not needed. Defines the
reporting threshold for intra-freq HO measurement when the UE is in
Cell-DCH state. This is the "Threshold used frequency" as defined in
{{bibref|3GPP-TS.25.331|Section 10.3.7.39}}. Each valid value of
{{param|MeasurementQuantity}} has a different valid range.
{{enum|CPICH RSCP|MeasurementQuantity}} has a range of -120 dBm to
-25 dBm {{enum|CPICH Ec/No|MeasurementQuantity}} has a range of -24
dB to 0 dB {{enum|Pathloss|MeasurementQuantity}} has a range of 30 dB
to 165 dB
Applicable only to event 1c Defines the minimum number of cells
allowed in the "active cell set" for Event 1c to occur.
{{bibref|3GPP-TS.25.331|Section 14.1.2 and Section 10.3.7.39}}
This object contains parameters relating to the inter-freq HO related
control parameters.
Defines the measurement quantity for inter-freq HO measurement when
the UE is in Cell-DCH state. Enumeration of: {{enum}}
{{bibref|3GPP-TS.25.331|Section 10.3.7.18}}
Defines the filter coefficient for inter-freq HO measurement when the
UE is in Cell-DCH state. {{bibref|3GPP-TS.25.331|Section 10.3.7.9 and
Section 10.3.7.18}}
{{list}} Each entry is an Event ID from the list of: 2a, 2b, 2c, 2d,
2e,2f Defines the identity of the event used to trigger
inter-frequency UE reporting (in case of event-triggered reporting).
{{bibref|3GPP-TS.25.331|Section 10.3.7.14}}
Defines the weighting factor for inter-freq HO measurement when the
UE is in Cell-DCH state. Actual values of the weighting factor are
0.0 to 2.0 in steps of 0.1. The value of {{param}} divided by 10
yields the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the weighting factor for inter-freq HO measurement when the
UE is in Cell-DCH state. Actual values of the weighting factor are
0.0 to 2.0 in steps of 0.1. The value of {{param}} divided by 10
yields the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the weighting factor for inter-freq HO measurement when the
UE is in Cell-DCH state. Actual values of the weighting factor are
0.0 to 2.0 in steps of 0.1. The value of {{param}} divided by 10
yields the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the weighting factor for inter-freq HO measurement when the
UE is in Cell-DCH state. Actual values of the weighting factor are
0.0 to 2.0 in steps of 0.1. The value of {{param}} divided by 10
yields the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the hysteresis for inter-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 14.5 in
steps of 0.5. The value of {{param}} divided by 2 yields the actual
value of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the hysteresis for inter-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 14.5 in
steps of 0.5. The value of {{param}} divided by 2 yields the actual
value of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the hysteresis for inter-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 14.5 in
steps of 0.5. The value of {{param}} divided by 2 yields the actual
value of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the hysteresis for inter-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 14.5 in
steps of 0.5. The value of {{param}} divided by 2 yields the actual
value of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the time-to-trigger in {{units}} for inter-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.19
and Section 10.3.7.64}}
Defines the time-to-trigger in {{units}} for inter-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.19
and Section 10.3.7.64}}
Defines the time-to-trigger in {{units}} for inter-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.19
and Section 10.3.7.64}}
Defines the time-to-trigger in {{units}} for inter-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.19
and Section 10.3.7.64}}
Defines the reporting threshold for inter-freq HO measurement when
the UE is in Cell-DCH state. This is the "Threshold used frequency"
as defined in {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}. Each valid
value of {{param|MeasurementQuantity}} has a different valid range.
{{enum|CPICH RSCP|MeasurementQuantity}} has a range of -120 dBm to
-25 dBm {{enum|CPICH Ec/No|MeasurementQuantity}} has a range of -24
dB to 0 dB
Defines the reporting threshold for inter-freq HO measurement when
the UE is in Cell-DCH state. This is the "Threshold used frequency"
as defined in {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}. Each valid
value of {{param|MeasurementQuantity}} has a different valid range.
{{enum|CPICH RSCP|MeasurementQuantity}} has a range of -120 dBm to
-25 dBm {{enum|CPICH Ec/No|MeasurementQuantity}} has a range of -24
dB to 0 dB
Defines the reporting threshold for inter-freq HO measurement when
the UE is in Cell-DCH state. This is the "Threshold used frequency"
as defined in {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}. Each valid
value of {{param|MeasurementQuantity}} has a different valid range.
{{enum|CPICH RSCP|MeasurementQuantity}} has a range of -120 dBm to
-25 dBm {{enum|CPICH Ec/No|MeasurementQuantity}} has a range of -24
dB to 0 dB
{{numentries}}
Table containing parameters relating to a particular instance of
inter-freq events.
Enables or disables this {{object}} entry.
{{datatype|expand}}
Each entry is an Event ID from the list of: {{enum}} Defines the
identity of the event used to trigger UE reporting (in case of
event-triggered reporting). {{bibref|3GPP-TS.25.331|Section
10.3.7.14}} This attribute is readable, as it is highly dependent on
how the FAP makes use of the event.
A free-form description of the way the event instance is meant to be
used. E.g. "detecting cell edge to prepare for hand-out", "cancel
hand-out preparation".
Defines the measurement quantity for inter-freq HO measurement when
the UE is in Cell-DCH state. Enumeration of: {{enum}}
{{bibref|3GPP-TS.25.331|Section 10.3.7.18}}
Defines the filter coefficient for inter-freq HO measurement when the
UE is in Cell-DCH state. {{bibref|3GPP-TS.25.331|Section 10.3.7.9 and
Section 10.3.7.18}}
Defines the weighting factor for inter-freq HO measurement when the
UE is in Cell-DCH state. Actual values of the weighting factor are
0.0 to 2.0 in steps of 0.1. The value of {{param}} divided by 10
yields the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the hysteresis for inter-freq HO measurement when the UE is
in Cell-DCH state. Actual values of the range are 0.0 to 14.5 in
steps of 0.5. The value of {{param}} divided by 2 yields the actual
value of the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}
Defines the time-to-trigger in {{units}} for inter-freq HO
measurement when the UE is in Cell-DCH state. Only the specified
values are considered valid, any value other than those and the CPE
MUST reject the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39
and Section 10.3.7.64}}
Applicable to events 2b, 2d, 2f, otherwise not needed. Defines the
reporting threshold for inter-freq HO measurement when the UE is in
Cell-DCH state. This is the "Threshold used frequency" as defined in
{{bibref|3GPP-TS.25.331|Section 10.3.7.19}}. Each valid value of
{{param|MeasurementQuantity}} has a different valid range.
{{enum|CPICH RSCP|MeasurementQuantity}} has a range of -120 dBm to
-25 dBm {{enum|CPICH Ec/No|MeasurementQuantity}} has a range of -24
dB to 0 dB
Applicable to events 2a, 2b, 2c, 2e otherwise not needed. Defines the
reporting threshold for inter-freq HO measurement when the UE is in
Cell-DCH state. This is the "Threshold non used frequency" as defined
in {{bibref|3GPP-TS.25.331|Section 10.3.7.19}}. Each valid value of
{{param|MeasurementQuantity}} has a different valid range.
{{enum|CPICH RSCP|MeasurementQuantity}} has a range of -120 dBm to
-25 dBm {{enum|CPICH Ec/No|MeasurementQuantity}} has a range of -24
dB to 0 dB
This object contains parameters relating to the inter-RAT HO related
control parameters. This is specifically for GERAN system.
Defines the filter coefficient for inter-RAT HO measurement when the
UE is in Cell-DCH state. {{bibref|3GPP-TS.25.331|Section 10.3.7.9 and
Section 10.3.7.29}}
Indicates whether the BSIC verification is required or not for
inter-RAT HO measurement when the UE is in Cell-DCH state.
{{bibref|3GPP-TS.25.331|Section 10.3.7.29}}
Defines the weighting factor for inter-RAT HO measurement when the UE
is in Cell-DCH state. Actual values of the weighting factor are 0.0
to 2.0 in steps of 0.1. The value of {{param}} divided by 10 yields
the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.30}}
Defines the hysteresis for inter-RAT HO measurement when the UE is in
Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps of
0.5. The value of {{param}} divided by 2 yields the actual value of
the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.30}}
Defines the time-to-trigger in {{units}} for inter-RAT HO measurement
when the UE is in Cell-DCH state. Only the specified values are
considered valid, any value other than those and the CPE MUST reject
the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and Section
10.3.7.64}}
Defines the reporting threshold for inter-RAT HO measurement when the
UE is in Cell-DCH state. This is the "Threshold own system" as
defined in {{bibref|3GPP-TS.25.331|Section 10.3.7.30}}.
Defines the reporting threshold for inter-RAT HO measurement when the
UE is in Cell-DCH state. This is the "Threshold other system" as
defined in {{bibref|3GPP-TS.25.331|Section 10.3.7.30}}.
{{numentries}}
Table containing parameters relating to a particular instance of
inter-freq events.
Enables or disables this {{object}} entry.
{{datatype|expand}}
Each entry is an Event ID from the list of: {{enum}} Defines the
identity of the event used to trigger UE reporting (in case of
event-triggered reporting). {{bibref|3GPP-TS.25.331|Section
10.3.7.14}} This attribute is readable, as it is highly dependent on
how the FAP makes use of the event.
A free-form description of the way the event instance is meant to be
used. E.g. "hand-out to GSM macrocell", "cancel hand-out preparation
due to decreasing macrocell quality".
Defines the filter coefficient for inter-freq HO measurement when the
UE is in Cell-DCH state. {{bibref|3GPP-TS.25.331|Section 10.3.7.9 and
Section 10.3.7.18}}
Applicable only to GSM events. Indicates whether the BSIC
verification is required or not for inter-RAT HO measurement when the
UE is in Cell-DCH state. {{bibref|3GPP-TS.25.331|Section 10.3.7.29}}
Defines the weighting factor for inter-RAT HO measurement when the UE
is in Cell-DCH state. Actual values of the weighting factor are 0.0
to 2.0 in steps of 0.1. The value of {{param}} divided by 10 yields
the actual value of the weighting factor.
{{bibref|3GPP-TS.25.331|Section 10.3.7.30}}
Defines the hysteresis for inter-RAT HO measurement when the UE is in
Cell-DCH state. Actual values of the range are 0.0 to 7.5 in steps of
0.5. The value of {{param}} divided by 2 yields the actual value of
the hysteresis. {{bibref|3GPP-TS.25.331|Section 10.3.7.30}}
Defines the time-to-trigger in {{units}} for inter-RAT HO measurement
when the UE is in Cell-DCH state. Only the specified values are
considered valid, any value other than those and the CPE MUST reject
the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.39 and Section
10.3.7.64}}
Applicable only to event 3a, otherwise not needed. Defines the
reporting threshold for inter-RAT HO measurement when the UE is in
Cell-DCH state. This is the "Threshold own system" as defined in
{{bibref|3GPP-TS.25.331|Section 10.3.7.30}}.
Applicable to events 3a, 3b, 3c, otherwise not needed. Defines the
reporting threshold for inter-RAT HO measurement when the UE is in
Cell-DCH state. This is the "Threshold other system" as defined in
{{bibref|3GPP-TS.25.331|Section 10.3.7.30}}.
This object contains parameters relating to the UE internal measurement
control parameters.
Defines the filter coefficient for UE internal measurement.
{{bibref|3GPP-TS.25.331|Section 10.3.7.9 and Section 10.3.7.79}}
Defines the threshold for UE transmit power above which Event 6a is
reported. {{bibref|3GPP-TS.25.331|Section 10.3.7.80}}
Defines the period in {{units}} between detection of Event 6a and
sending of Measurement Report. Only the specified values are
considered valid, any value other than those and the CPE MUST reject
the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.80}}
Defines the threshold for UE transmit power above which Event 6b is
reported. {{bibref|3GPP-TS.25.331|Section 10.3.7.80}}
Defines the period in {{units}} between detection of Event 6b and
sending of Measurement Report. Only the specified values are
considered valid, any value other than those and the CPE MUST reject
the request. {{bibref|3GPP-TS.25.331|Section 10.3.7.80}}
This object contains parameters relating to the RF configuration.
{{list}} Each item is a DL UTRA Absolute Radio Frequency Channel
Number (UARFCN) in an FDD mode cell. {{bibref|3GPP-TS.25.433|Section
9.2.1.65}} Self-configuration for UARFCN is controlled by
{{param|.Capabilities.UMTS.SelfConfig.UARFCNConfig}} from an
availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.UARFCNSelfConfigEnable}} from an
enabled perspective. If the FAP's self-configuration capability for
UARFCN is available and enabled, this parameter MAY contain more than
one item and the FAP is expected to select one from the list for
{{param|UARFCNDLInUse}}. If the self-configuration capability is not
available or not enabled, then this parameter SHOULD contain only a
single item. The UARFCN values supplied to the list are derived based
on the formula defined in {{bibref|3GPP-TS.25.104|Section 5.4.3}} The
order of the UARFCN entries has no significance. The carrier spacing
in FDD mode is fixed as defined in {{bibref|3GPP-TS.25.104}}.
Therefore, the FAP can unambiguously derive the UL UARFCN value based
on the selected DL UARFCN.
The DL UARFCN being used by the FAP. Self-configuration for UARFCN is
controlled by {{param|.Capabilities.UMTS.SelfConfig.UARFCNConfig}}
from an availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.UARFCNSelfConfigEnable}} from an
enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in {{param|UARFCNDL}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains the first value in {{param|UARFCNDL}}.
The UL UARFCN being used by the FAP. The UL UARFCN that corresponds
to {{param|UARFCNDLInUse}}.
{{list}} Each item is a DL UARFCNs to be protected from adjacent
channel interference. "Adjacent channel" in this context means offset
from the FAP's UARFCN by 5MHz. {{bibref|3GPP-TS.25.104|Section
6.4.6}} If any of the items in the list are adjacent to the FAP's own
DL channel, the FAP MUST take the Primary CPICH code power measured
on these channels into account as part of its maximum transmit power
self-configuration. The UARFCNs in the list can belong to any
operator, allowing for protection of the FAP operator's own macro
layer as well as that of other operators (only the latter is mandated
by the {{bibref|3GPP-TS.25.104}} requirements). The list SHOULD take
into account the ability of the FAP to self-configure its own DL
UARFCN and so SHOULD include any channels (requiring protection)
which can potentially be adjacent to the UARFCN selected by the FAP.
For example, if only adjacent operator protection is required and the
FAP has the ability to self-configure to any channel owned by its
operator, this list would be populated with the UARFCNs immediately
above and below the range of channels owned by the FAP operator.
Adjacent channel protection can cause the FAP transmit power to be
reduced down to as low as 8dBm. If {{empty}} then it indicates that
there are no channels adjacent to the FAP that require protection, or
that self-configuration of the FAP transmit power is not enabled.
{{list}} Each item is a Primary DL Scrambling Code used by the FDD
mode cell with a numeric range between 0 and 511 inclusive.
{{bibref|3GPP-TS.25.433|Section 9.2.2.34}} Self-configuration for PSC
is controlled by
{{param|.Capabilities.UMTS.SelfConfig.PrimaryScramblingCodeConfig}}
from an availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.PrimaryScramblingCodeSelfConfigEnable}}
from an enabled perspective. If the FAP's self-configuration
capability for {{param}} is available and enabled, this parameter MAY
contain more than one item and the FAP is expected to select one from
the list for {{param|PrimaryScramblingCodeInUse}}. If the
self-configuration capability is not available or not enabled, then
this parameter SHOULD contain only a single item. The multiplicity of
the PSC values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. The following are examples of valid PSC string:
:"20"
::(explicitly specifies a single PSC value)
:"20,30,40"
::(specifies 3 possible PSC values to select from) "20..40"
::(specifies 21 possible values between 20 and 40, inclusive)
"20..40,50"
::(specifies 22 possible values between 20 and 40 inclusive and a
single value 50) The order of the items has no significance.
The PSC being used by the FAP. Self-configuration for PSC is
controlled by
{{param|.Capabilities.UMTS.SelfConfig.PrimaryScramblingCodeConfig}}
from an availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.PrimaryScramblingCodeSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in
{{param|PrimaryScramblingCode}}. If the self-configuration capability
is not available or not enabled, then this parameter contains the
first value in {{param|PrimaryScramblingCode}}.
Defines the maximum transmission power allowed on the FAP, maximum
value for the linear sum of the power of all downlink physical
channels, that is allowed to be used in a cell. {{param}} is
expressed as a range of allowed maximum power levels with ".." (two
periods) between the upper and lower values, i.e.
"<Pmax_low>..<Pmax_high>". {{param}} identifies the
limits between which the FAP can self-configure its maximum transmit
power. Self-configuration for maximum transmission power is
controlled by
{{param|.Capabilities.UMTS.SelfConfig.MaxFAPTxPowerExpandedConfig}}
from an availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.MaxFAPTxPowerExpandedSelfConfigEnable}}
from an enabled perspective. <Pmax_low> and <Pmax_high>
are measured in dBm and have a range of -30.0 to 20.0 incremented by
0.1 dB. {{bibref|3GPP-TS.32.642|Section 6.3.9}}
{{bibref|3GPP-TS.25.104|Section 6.2.1}}
The maximum transmission power measured in {{units}} currently used
by the FAP. Actual values of the maximum transmission power are -30.0
{{units}} to 20.0 {{units}} in steps of 0.1 dB. The value of
{{param}} divided by 10 yields the actual value of the maximum
transmission power. Self-configuration for maximum transmission power
is controlled by
{{param|.Capabilities.UMTS.SelfConfig.MaxFAPTxPowerExpandedConfig}}
from an availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.MaxFAPTxPowerExpandedSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the range provided in {{param|MaxFAPTxPowerExpanded}}.
If the self-configuration capability is not available or not enabled,
then this parameter contains a value selected by the ACS.
Defines the maximum transmission power level a UE can use on PRACH.
{{param}} is expressed as a range of allowed maximum power levels
with ".." (two periods) between the upper and lower values, i.e.
"<Pmax_low>..<Pmax_high>". {{param}} identifies the
limits between which the FAP can self-configure its maximum transmit
power. Self-configuration for maximum transmission power is
controlled by
{{param|.Capabilities.UMTS.SelfConfig.MaxULTxPowerConfig}} from an
availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.MaxULTxPowerSelfConfigEnable}}
from an enabled perspective. <Pmax_low> and <Pmax_high>
are measured in dBm and have a range of -50 to 33 incremented by 1.
{{bibref|3GPP-TS.25.331|Section 10.3.6.39}}
The maximum transmission power level a UE can use on PRACH.
Self-configuration for maximum transmission power is controlled by
{{param|.Capabilities.UMTS.SelfConfig.MaxULTxPowerConfig}} from an
availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.MaxULTxPowerSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the range provided in {{param|MaxULTxPower}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains a value selected by the ACS.
The value of the transmission power of the Primary Common PIlot
CHannel (P-CPICH). The P-CPICH physical channel carries the common
pilots of the cell. Parameter in SIB5. {{param}} is expressed as a
range of allowed transmission power levels with ".." (two periods)
between the upper and lower values, i.e.
"<Pmax_low>..<Pmax_high>". {{param}} identifies the
limits between which the FAP can self-configure its transmission
power. Self-configuration for transmission power is controlled by
{{param|.Capabilities.UMTS.SelfConfig.PCPICHPowerConfig}} from an
availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.PCPICHPowerSelfConfigEnable}}
from an enabled perspective. <Pmax_low> and <Pmax_high>
are measured in dBm and have a range of -10.0 to 20.0 incremented by
0.1 dB. {{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.104|Section 6.2.1}}
The P-CPICH power measured in {{units}} currently used by the FAP.
Actual values of the maximum transmission power are -10.0 {{units}}
to 20.0 {{units}} in steps of 0.1 dB. The value of {{param}} divided
by 10 yields the actual value of the maximum transmission power.
Self-configuration for transmission power is controlled by
{{param|.Capabilities.UMTS.SelfConfig.PCPICHPowerConfig}} from an
availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.PCPICHPowerSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the range provided in {{param|PCPICHPower}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains a value selected by the ACS.
Defines the power offset between pilot channel and DPDCH. Actual
values of the offset are 0.0 {{units}} to 6.0 {{units}} in steps of
0.25 {{units}}. The value of {{param}} divided by 4 yields the actual
value of the offset. {{bibref|3GPP-TS.25.331|Section 10.3.6.18}}
{{bibref|3GPP-TS.25.214|Section 5.2.1}}
Defines the target value measured in {{units}} for the range of the
FAP's DL coverage, in terms of RF propagation loss. This value can be
used by the FAP's self-configuration algorithms to help derive
transmit power levels in the presence of co-channel and adjacent
channel interference. {{bibref|3GPP-TS.25.967|Section 7.2.1}}
Defines the target value measured in dB for the downlink signal
quality of the FAP in terms of CPICH Ec/Io, thereby clarifying the
meaning of "FAPCoverageTarget". Actual values of the
FAPQualityTargetEcIo are -20 dB to 0 dB in steps of 0.1 dB.
Defines the transmission power offset measured in {{units}} of the
Primary SCH relative to the Primary CPICH power. Actual values of the
transmission power offset are -35.0 {{units}} to 15.0 {{units}} in
steps of 0.1 {{units}}. The value of {{param}} divided by 10 yields
the actual value of the transmission power offset.
{{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.433|Section 9.1.24 and Section 9.2.1.21}}
Defines the transmission power offset measured in {{units}} of the
Secondary SCH relative to the Primary CPICH power. Actual values of
the transmission power offset are -35.0 {{units}} to 15.0 {{units}}
in steps of 0.1 {{units}}. The value of {{param}} divided by 10
yields the actual value of the transmission power offset.
{{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.433|Section 9.1.24 and Section 9.2.1.21}}
Defines the maximum transmission power offset measured in {{units}}
of the PICH channel relative to the Primary CPICH transmission power.
{{bibref|3GPP-TS.32.642|Section 6.3.9}}
{{bibref|3GPP-TS.25.433|Section 9.2.1.49A}}
{{bibref|3GPP-TS.25.331|Section 10.3.6.50}}
Defines the transmission power offset measured in {{units}} of the
PCH relative to the Primary CPICH power. Actual values of the
transmission power offset are -35.0 {{units}} to 15.0 {{units}} in
steps of 0.1 {{units}}. The value of {{param}} divided by 10 yields
the actual value of the transmission power offset.
{{bibref|3GPP-TS.32.642|Section 6.3.9}}
{{bibref|3GPP-TS.25.433|Section 9.1.3.1 and Section 9.2.1.21}}
Defines the transmission power offset measured in {{units}} of the
FACH relative to the Primary CPICH power. Actual values of the
transmission power offset are -35.0 {{units}} to 15.0 {{units}} in
steps of 0.1 {{units}}. The value of {{param}} divided by 10 yields
the actual value of the transmission power offset.
{{bibref|3GPP-TS.32.642|Section 6.3.9}}
{{bibref|3GPP-TS.25.433|Section 9.1.6.1 and Section 9.2.1.21}}
Defines the transmission power offset measured in {{units}} of the
BCH relative to the Primary CPICH power. Actual values of the
transmission power offset are -35.0 {{units}} to 15.0 {{units}} in
steps of 0.1 {{units}}. The value of {{param}} divided by 10 yields
the actual value of the transmission power offset.
{{bibref|3GPP-TS.32.642|Section 9.3.11}}
{{bibref|3GPP-TS.25.433|Section 9.1.24 and Section 9.2.1.21}}
Defines the transmission power offset measured in {{units}} of one
AICH relative to the Primary CPICH power. Parameter defined in SIB5
{{bibref|3GPP-TS.25.331|Section 10.3.6.3}}. Transmission power level
of AICH, AP-AICH and CD/CA-ICH channels compared to CPICH.
{{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.433|Section 9.2.2.D}}
The value defines 'N' multiples of M(TTI) for CBS DRX calculations at
the UE side.
Value of CBS frame offset (CTCH) on DL FACH. Parameter in SIB5
Defines the number of radio frames in the TTI of the FACH used for
CTCH (MTTI).
Defines the lower value of the Noise Rise Limit range that UMTS FAP
is allowed to pick from. The value is measured in dB and has a range
of 0.0 to 50.0 incremented by 0.1 dB. the value MUST not exceed the
value of {{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitUpperValue}}
The Noise Rise Limit range identifies the limits between which the
FAP can self-configure its uplink noise rise limit.
Self-configuration for noise rise limit is controlled by
{{param|.Capabilities.UMTS.SelfConfig.NoiseRiseLimitConfig}} from an
availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.NoiseRiseLimitConfigEnable}} from
an enabled perspective.
Defines the upper value of the Noise Rise Limit range that UMTS FAP
is allowed to pick from. The value is measured in dB and has a range
of 0.0 to 50.0 incremented by 0.1 dB. the value MUST not be below the
value of {{param|.CellConfig.UMTS.RAN.RF.NoiseRiseLimitLowerValue}}
NoiseRiseLimit identifies the limits between which the FAP can
self-configure its uplink noise rise limit. Self-configuration for
noise rise limit is controlled by
{{param|.Capabilities.UMTS.SelfConfig.NoiseRiseLimitConfig}} from an
availability perspective and
{{param|.FAPControl.UMTS.SelfConfig.NoiseRiseLimitConfigEnable}} from
an enabled perspective.
Actual value of the Noise Rise Limit that the FAP uses. The value is
measured in dB and has a range of 0.0 to 50.0 incremented by 0.1 dB.
This object contains parameters relating to the neighbor list.
The maximum number of entries in the
{{object|.CellConfig.UMTS.RAN.NeighborList.IntraFreqCell.{i}.}}
table.
The maximum number of entries in the
{{object|.CellConfig.UMTS.RAN.NeighborList.InterFreqCell.{i}.}}
table.
{{numentries}}
{{numentries}}
Table containing the intra-frequency cell list provided by the ACS. The
table contents MAY be added/deleted/modified during operation, in which
case these changes shall be reflected in the broadcast information as
soon as possible.
Enables or disables this entry.
{{datatype|expand}}
Indicates whether this instance of the neighbor shall be included or
excluded in the FAP's NL configuration.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
RNC-ID of an intra-freq neighbor cell. It uniquely identifies an RNC
within a PLMN. Normally, RNC-ID consists of 12 bits (i.e. a range of
[0:4095]). However, if the value is larger than 4095, then Extended
RNC-ID (range of [4096:65535]) is used in RANAP. The RNC-ID and
Extended RNC-ID are combined into a single parameter here as there is
no explicit need to have them separated.
{{bibref|3GPP-TS.25.413|Section 9.2.1.39}}
Cell Identifier (C-id) that identifies a cell within an RNS. This
Cell Identifier together with the controlling RNC (RNC-ID)
constitutes the UTRAN Cell ID (UC-ID) and is used to identify a cell
uniquely within UTRAN. C-ID is either 12-bit or 16-bit value.
{{bibref|3GPP-TS.25.401|Section 6.1.5}}.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
Routing Area Code (RAC). The concatenation of PLMN ID (MCC+MNC), LAC,
and RAC uniquely identifies the Routing Area ID (RAI).
{{bibref|3GPP-TS.23.003|Section 4.2}} {{bibref|3GPP-TS.25.413|Section
9.2.3.7}}
UTRAN Registration Area (URA) {{bibref|3GPP-TS.23.401}}. Indicates to
the UE which {{param}} it shall use in case of overlapping URAs.
{{bibref|3GPP-TS.25.331|Section 10.3.2.6}}
Primary CPICH scrambling code.
Primary CPICH Tx power in {{units}}. Actual values of the power are
-10.0 {{units}} to 50.0 {{units}} in steps of 0.1 dB. The value of
{{param}} divided by 10 yields the actual value of the power.
{{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.433|Section 2.2.33}}
Provides identity of collocated inter-frequency Cell. Needed for
pathloss estimation, in case the femto environment masks
intra-frequency neighbor. Cell Identity.
{{bibref|3GPP-TS.25.331|Section 10.3.2.2}}
Cell Max Tx Power. Parameter needed in HNB power calibration, for
protection of neighbour cells. Actual values of the power are -30.0
dBm to 60.0 dBm in steps of 0.1 dB. The value of MaxTxPower divided
by 10 yields the actual value of the power. C.f
{{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.104|Section 6.2.1}}
Maximum DL DPCH Tx Power per UE configured in the cell (for CS UEs).
Parameter may be used by FAP to protect the DL budget allocated to
neighbouring UEs served by neighbour cells. C.f (max 10 dB below max
Tx power) {{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.104|Section 6.2.1}} Actual values of the power
are -40.0 dBm to 50.0 dBm in steps of 0.1 dB. The value of
MaxDPCHtxPower divided by 10 yields the actual value of the power.
Table containing the inter-frequency cell list provided by the ACS. The
table contents MAY be added/deleted/modified during operation, in which
case these changes shall be reflected in the broadcast information as
soon as possible.
Enables or disables this entry.
{{datatype|expand}}
Indicates whether this instance of the neighbor shall be included or
excluded in the FAP's NL configuration.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
RNC-ID of an intra-freq neighbor cell. It uniquely identifies an RNC
within a PLMN. Normally, RNC-ID consists of 12 bits (i.e. a range of
[0:4095]). However, if the value is larger than 4095, then Extended
RNC-ID (range of [4096:65535]) is used in RANAP. The RNC-ID and
Extended RNC-ID are combined into a single parameter here as there is
no explicit need to have them separated.
{{bibref|3GPP-TS.25.413|Section 9.2.1.39}}
Cell Identifier (C-id) that identifies a cell within an RNS. This
Cell Identifier together with the controlling RNC (RNC-ID)
constitutes the UTRAN Cell ID (UC-ID) and is used to identify a cell
uniquely within UTRAN. C-ID is either 12-bit or 16-bit value.
{{bibref|3GPP-TS.25.401|Section 6.1.5}}.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
Routing Area Code (RAC). The concatenation of PLMN ID (MCC+MNC), LAC,
and RAC uniquely identifies the Routing Area ID (RAI).
{{bibref|3GPP-TS.23.003|Section 4.2}} {{bibref|3GPP-TS.25.413|Section
9.2.3.7}}
UTRAN Registration Area (URA) {{bibref|3GPP-TS.23.401}}. Indicates to
the UE which {{param}} it shall use in case of overlapping URAs.
{{bibref|3GPP-TS.25.331|Section 10.3.2.6}}
The UL UTRA Absolute Radio Frequency Channel Number (UARFCN) in an
FDD mode cell. {{bibref|3GPP-TS.25.433}}
The DL UTRA Absolute Radio Frequency Channel Number (UARFCN) in an
FDD mode cell. {{bibref|3GPP-TS.25.433}}
Primary CPICH scrambling code.
Primary CPICH Tx power in {{units}}. Actual values of the power are
-10.0 {{units}} to 50.0 {{units}} in steps of 0.1 dB. The value of
{{param}} divided by 10 yields the actual value of the power.
{{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.433|Section 2.2.33}}
The inter-RAT cell lists separated by technology.
{{bibref|3GPP-TS.25.331|Section 10.3.7.23}}
The maximum number of entries in the
{{object|.CellConfig.UMTS.RAN.NeighborList.InterRATCell.GSM.{i}.}}
table.
{{numentries}}
Table containing the inter-RAT cell list for GSM provided by the ACS.
The table contents MAY be added/deleted/modified during operation, in
which case these changes shall be reflected in the broadcast
information as soon as possible.
Enables or disables this entry.
{{datatype|expand}}
Indicates whether this instance of the neighbor shall be included or
excluded in the FAP's NL configuration.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
BSIC of the cell per {{bibref|3GPP-TS.23.003}}, consisting of:
:Bit 7:6 - not used ("00")
:Bit 5:3 - NCC (PLMN Color Code)
:Bit 2:0 - BCC (BS color code) For example, if NCC is 7 and BCC is 2
you would have 00111010 (binary) or 0x3A (hex), and the value of
this parameter would be 58.
Cell ID of the cell per {{bibref|3GPP-TS.23.003|Section 4.3.1}}.
Indicates how to interpret the BCCH ARFCN. {{enum}}
ARFCN of this cell.
This object contains parameters relating to the neighbor list used by
the FAP based on its self-configuration capability and
{{object|.CellConfig.UMTS.RAN.NeighborList.}} configuration of adding
and excluding cells.
The maximum number of entries in the
{{object|.CellConfig.UMTS.RAN.NeighborList.IntraFreqCell.{i}.}}
table.
The maximum number of entries in the
{{object|.CellConfig.UMTS.RAN.NeighborList.InterFreqCell.{i}.}}
table.
{{numentries}}
{{numentries}}
Table containing the intra-frequency cell list.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
RNC-ID of an intra-freq neighbor cell. It uniquely identifies an RNC
within a PLMN. Normally, RNC-ID consists of 12 bits (i.e. a range of
[0:4095]). However, if the value is larger than 4095, then Extended
RNC-ID (range of [4096:65535]) is used in RANAP. The RNC-ID and
Extended RNC-ID are combined into a single parameter here as there is
no explicit need to have them separated.
{{bibref|3GPP-TS.25.413|Section 9.2.1.39}}
C-ID of the intra-freq neighbour cell {{bibref|3GPP-TS.25.401|Section
6.1.5}}. If {{param|RNCID}} is larger than 4095, then {{param}} will
be 12 bits (i.e. a range of [0:4095]), else {{param}} is 16 bits long
(i.e. range of [4096:65535]). This is needed to facilitate Femto to
Macro handover. Used in {{bibref|3GPP-TS.25.413|Section 9.2.1.28}} as
part of Target Cell ID.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
Routing Area Code (RAC). The concatenation of PLMN ID (MCC+MNC), LAC,
and RAC uniquely identifies the Routing Area ID (RAI).
{{bibref|3GPP-TS.23.003|Section 4.2}} {{bibref|3GPP-TS.25.413|Section
9.2.3.7}}
UTRAN Registration Area (URA) {{bibref|3GPP-TS.23.401}}. Indicates to
the UE which {{param}} it shall use in case of overlapping URAs.
{{bibref|3GPP-TS.25.331|Section 10.3.2.6}}
Primary CPICH scrambling code.
Table containing the inter-frequency cell list.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
RNC-ID of an intra-freq neighbor cell. It uniquely identifies an RNC
within a PLMN. Normally, RNC-ID consists of 12 bits (i.e. a range of
[0:4095]). However, if the value is larger than 4095, then Extended
RNC-ID (range of [4096:65535]) is used in RANAP. The RNC-ID and
Extended RNC-ID are combined into a single parameter here as there is
no explicit need to have them separated.
{{bibref|3GPP-TS.25.413|Section 9.2.1.39}}
C-ID of the intra-freq neighbour cell {{bibref|3GPP-TS.25.401|Section
6.1.5}}. If {{param|RNCID}} is larger than 4095, then {{param}} will
be 12 bits (i.e. a range of [0:4095]), else {{param}} is 16 bits long
(i.e. range of [4096:65535]). This is needed to facilitate Femto to
Macro handover. Used in {{bibref|3GPP-TS.25.413|Section 9.2.1.28}} as
part of Target Cell ID.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
Routing Area Code (RAC). The concatenation of PLMN ID (MCC+MNC), LAC,
and RAC uniquely identifies the Routing Area ID (RAI).
{{bibref|3GPP-TS.23.003|Section 4.2}} {{bibref|3GPP-TS.25.413|Section
9.2.3.7}}
UTRAN Registration Area (URA) {{bibref|3GPP-TS.23.401}}. Indicates to
the UE which {{param}} it shall use in case of overlapping URAs.
{{bibref|3GPP-TS.25.331|Section 10.3.2.6}}
The UL UTRA Absolute Radio Frequency Channel Number (UARFCN) in an
FDD mode cell. {{bibref|3GPP-TS.25.433}}
The DL UTRA Absolute Radio Frequency Channel Number (UARFCN) in an
FDD mode cell. {{bibref|3GPP-TS.25.433}}
Primary CPICH scrambling code.
The inter-RAT cell lists separated by technology.
{{bibref|3GPP-TS.25.331|Section 10.3.7.23}}
The maximum number of entries in the
{{object|.CellConfig.UMTS.RAN.NeighborList.InterRATCell.GSM.{i}.}}
table.
{{numentries}}
Table containing the inter-RAT cell list for GSM.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
BSIC of the cell per {{bibref|3GPP-TS.23.003}}, consisting of:
:Bit 7:6 - not used ("00")
:Bit 5:3 - NCC (PLMN Color Code)
:Bit 2:0 - BCC (BS color code) For example, if NCC is 7 and BCC is 2
you would have 00111010 (binary) or 0x3A (hex), and the value of
this parameter would be 58.
Cell ID of the cell per {{bibref|3GPP-TS.23.003|Section 4.3.1}}.
Indicates how to interpret the BCCH ARFCN. {{enum}}
ARFCN of this cell.
This object contains parameters relating to Radio Access layers
{{bibref|3GPP-TS.32.405}}
The number of successfully established RABs (with or without
queueing) for CS domain.
The number of RAB establishment failures for CS domain.
The number of successfully established RABs for PS domain.
The number of RABs failed to establish for PS domain.
The mean time in {{units}} for a FAP to establish a RAB CS
connection. This measurement is obtained by accumulating the time
intervals for each successful RAB establishment between the receipt
by the FAP of a RANAP "RAB ASSIGNMENT REQUEST" message to establish a
RAB for CS domain, and the first corresponding (based on RAB ID)
transmission by the FAP of a RANAP "RAB ASSIGNMENT RESPONSE" message
for successfully established RABs over a granularity period (Sample
Interval {{bibref|3GPP-TS.32.582|Section 6.3.2}}). This end value of
the time will then be divided by the number of successfully
established RABs observed in the granularity period to give the
arithmetic mean. The accumulator SHALL be reinitialized at the
beginning of each granularity period.
The maximum time in {{units}} for a FAP to establish a RAB CS
connection. This measurement is obtained by monitoring the time
intervals for each successful RAB establishment between the receipt
by the FAP of a RANAP "RAB ASSIGNMENT REQUEST" message to establish a
RAB for CS domain, and the first corresponding (based on RAB ID)
transmission by the FAP of a RANAP "RAB ASSIGNMENT RESPONSE" message
for successfully established RABs. The high tide mark of this time
will be stored in a gauge; the gauge SHALL be reinitialized at the
beginning of each granularity period (Sample Interval
{{bibref|3GPP-TS.32.582|Section 6.3.2}}).
The mean time in {{units}} for a FAP to establish a RAB PS
connection. This measurement is obtained by accumulating the time
intervals for each successful RAB establishment between the receipt
by the FAP of a RANAP "RAB ASSIGNMENT REQUEST" message to establish a
RAB for PS domain, and the first corresponding (based on RAB ID)
transmission by the FAP of a RANAP "RAB ASSIGNMENT RESPONSE" message
for successfully established RABs over a granularity period (Sample
Interval {{bibref|3GPP-TS.32.582|Section 6.3.2}}). This end value of
the time will then be divided by the number of successfully
established RABs observed in the granularity period to give the
arithmetic mean. The accumulator SHALL be reinitialized at the
beginning of each granularity period.
The maximum time in {{units}} for a FAP to establish a RAB PS
connection. This measurement is obtained by monitoring the time
intervals for each successful RAB establishment between the receipt
by the FAP of a RANAP "RAB ASSIGNMENT REQUEST" message to establish a
RAB for PS domain, and the first corresponding (based on RAB ID)
transmission by the FAP of a RANAP "RAB ASSIGNMENT RESPONSE" message
for successfully established RABs. The high tide mark of this time
will be stored in a gauge; the gauge SHALL be reinitialized at the
beginning of each granularity period (Sample Interval
{{bibref|3GPP-TS.32.582|Section 6.3.2}}).
The number of failed Handovers.
The number of successful Handovers.
This object contains parameters relating to configuring the LTE FAP.
{{numentries}}
This object contains a table of all tunnel instances configured for the
LTE FAP.
Enables or disables this entry.
{{datatype|expand}}
This is the reference to an IPsec tunnel instance used by the LTE
FAP. For all root data models, which use the tunnel definition
provided in {{bibref|TR-262}} (InternetGatewayDevice:1
{{bibref|TR-098}} and Device:1 {{bibref|TR-181i1}}) the {{param}}
MUST point to a row in the 'FAP.Tunnel.IKESA.{i}.' table, defined in
{{bibref|TR-262}}. If the root data model used is Device:2
{{bibref|TR-181i2}} than the {{param}} MUST point to IPsec tunnel
instance defined in {{bibref|TR-181i2}}. If the referenced object is
deleted, the parameter value MUST be set to an empty string. In case
of a multiple-radio-technology FAP product, each radio technology can
have its own tunnels or share common tunnels. In the former case,
{{param}} can contain a unique instance number. In the latter case,
{{param}} under all radio technologies can have the same instance
number.
{{list}} Optional list of PLMM IDs associated with the tunnel, which
can be used for selecting the tunnel. Each PLMN ID consists of Mobile
Country Code (MCC) and Mobile Network Code (MNC)
{{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile Country
Code consists of three digits and uniquely identifies the country of
domicile of the subscriber. Mobile Network Code consists of two or
three digits and identifies the Home PLMN within a country. For a
2-digit MNC the total string length of {{param}} is 5.
This object contains parameters relating to configuring LTE EPC.
{{list}} Each item is a ciphering algorithm allowed to be used for
RRC and UP confidentiality protection as defined in
{{bibref|3GPP-TS.33.401}}. If the list contains more than 1 item, it
is in the order of the preferred algorithm to be used. {{enum}}
{{list}} Each item is a integrity protection algorithm allowed to be
used for RRC as defined in {{bibref|3GPP-TS.33.401}}. If the list
contains more than 1 item, it is in the order of the preferred
algorithm to be used. {{enum}}
TAC (Tracking Area Code) for LTE FAP as specified in
SystemInformationBlockType1 message in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}.
Emergency Area ID that uniquely identifies the area of emergency for
Earthquake and Tsunami Warning Services (ETWS). Corresponds to
Emergency Area ID in {{bibref|3GPP-TS.36.413|Section 9.2.1.47}}.
The maximum number of entries available in the
{{object|.CellConfig.LTE.EPC.PLMNList.{i}.}} table.
{{numentries}}
The maximum number of entries in the
{{object|.CellConfig.LTE.EPC.QoS.{i}.}} table.
{{numentries}}
This object contains parameters relating to list of PLMN identity
specific to LTE EPC definition, called PLMN-IdentityList, as specified
in SystemInformationBlockType1 message in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}. Each instance in this object
is a PLMN-IdentityInfo which consists of plmn-Identity and
cellReservedForOperatorUse IEs. At minimum 1 item MUST be present in
this list, and maximum of 6 items.
Enables or disables this entry.
{{datatype|expand}}
Indicates whether this {{param|PLMNID}} is a primary PLMN or not. If
there is more than one instance in
{{object|.CellConfig.LTE.EPC.PLMNList.{i}.}} table, then ACS MUST set
this {{param}} set to {{true}} in only one instance.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Indicates whether the cell is reserved for operator use or not. If
{{true}}, it is reserved. If {{false}}, it is not reserved.
Corresponds to "reserved" "notReserved" respectively as defined in
PLMN-IdentityInfo in {{bibref|3GPP-TS.36.331|Section 6.2.2}}.
This object contains parameters relating to configuring QoS in LTE EPC.
Enables or disables this entry.
{{datatype|expand}}
QoS class identity as defined in {{bibref|3GPP-TS.23.203|Section
6.1.7.2}}.
Defines the type of the QoS class as defined in
{{bibref|3GPP-TS.23.203|Section 6.1.7.2}}.
Priority of the QoS class as defined in
{{bibref|3GPP-TS.23.203|Section 6.1.7.2}}.
Defines the Packet delay budget, specified in {{units}}, as defined
in {{bibref|3GPP-TS.23.203|Section 6.1.7.2}}.
This object contains parameters relating to the LTE RAN level
configuration.
This object contains parameters relating to the common configuration in
LTE RAN.
Cell Identity as specified in {{bibref|3GPP-TS.36.331|Section
6.3.4}}.
This object contains parameters relating to the S1AP configuration.
{{list}} Each item is a maximum time for the Handover Preparation
procedure in the source LTE FAP, specified in seconds, with a numeric
range between 0 and 300 inclusive. Only values in multiple of 5 are
valid; use of other values within the defined range MUST be rejected
by the CPE. In case there is more than one item in the list, the
first item contains the most preferred value. The value of {{param}}
divided by 10 yields the actual value. The timer is started when the
LTE FAP sends the HANDOVER REQUIRED message. Upon reception of the
HANDOVER COMMAND message the LTE FAP shall stop the timer.
Corresponds to parameter TS1RELOCprep defined in
{{bibref|3GPP-TS.36.413|Section 8.4.1.2}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If the LTE FAP supports self-configuration capability for {{param}}
and more than one item is configured, then the LTE FAP is expected to
select one from the list and overwrite this parameter containing only
the one selected. If the LTE FAP does not support self-configuration
capability for {{param}} and more than one item is configured, then
the LTE FAP accepts the first value and ignore the rest. If only one
item is configured regardless of the self-configuration capability of
LTE FAP, LTE FAP accepts the value as an explicit configuration by
the ACS.
{{list}} Each item is a maximum time for the protection of the
overall handover procedure in the source LTE FAP, specified in
seconds, with a numeric range between 0 and 300 inclusive. Only
values in multiple of 5 are valid; use of other values within the
defined range MUST be rejected by the CPE. In case there is more than
one item in the list, the first item contains the most preferred
value. The value of {{param}} divided by 10 yields the actual value.
The timer is started reception of the HANDOVER COMMAND message.
Corresponds to parameter TS1RELOCOverall defined in
{{bibref|3GPP-TS.36.413|Section 8.4.1.2}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If LTE FAP supports self-configuration capability for {{param}} and
more than one item is configured, then LTE FAP is expected to select
one from the list and overwrite this parameter containing only the
one selected. If LTE FAP does not support self-configuration
capability for {{param}} and more than one item is configured, then
LTE FAP accepts the first value and ignore the rest. If only one item
is configured regardless of the self-configuration capability of LTE
FAP, LTE FAP accepts the value as an explicit configuration by the
ACS.
This object contains parameters relating to the S1-U configuration.
Defines the interval in {{units}} between each GTP-U Echo Request
that LTE FAP sends to the GTP-U peer, as specified in
{{bibref|3GPP-TS.29.281|Section 7.2.1}}. If the value of {{param}} is
equal to 0, then this functionality is supressed and thus LTE FAP
does not send GTP-U Echo Request. If there is no GTP-U path in use,
then no Echo Request is sent regardless of the value of {{param}}.
This object contains parameters relating to the RF, see
{{bibref|3GPP-TS.32.592|Section 6.1.7.1}}.
{{list}} Each item is an E-UTRA Absolute Radio Frequency Channel
Number in the downlink direction. In case there is more than one item
in the list, the first item contains the most preferred value.
Corresponds to parameter NDL specified in
{{bibref|3GPP-TS.36.104|Table 5.7.3.1}}. If LTE FAP supports
self-configuration capability for {{param}} and more than one item is
configured, then LTE FAP is expected to select one from the list and
overwrite this parameter containing only the one selected. If LTE FAP
does not support self-configuration capability for {{param}} and more
than one item is configured, then LTE FAP accepts the first value and
ignore the rest. If only one item is configured regardless of the
self-configuration capability of LTE FAP, LTE FAP accepts the value
as an explicit configuration by the ACS.
{{list}} Each item is an E-UTRA Absolute Radio Frequency Channel
Number in the uplink direction. In case there is more than one item
in the list, the first item contains the most preferred value.
Corresponds to parameter NUL specified in
{{bibref|3GPP-TS.36.104|Table 5.7.3.1}}. If LTE FAP supports
self-configuration capability for {{param}} and more than one item is
configured, then LTE FAP is expected to select one from the list and
overwrite this parameter containing only the one selected. If LTE FAP
does not support self-configuration capability for {{param}} and more
than one item is configured, then LTE FAP accepts the first value and
ignore the rest. If only one item is configured regardless of the
self-configuration capability of LTE FAP, LTE FAP accepts the value
as an explicit configuration by the ACS.
Frequency band indicator. Corresponds to parameter freqBandIndicator
in SIB1 in {{bibref|3GPP-TS.36.331|Section 6.2.2}}.
{{list}} Each item is a downlink transmission bandwidth, specified in
number of Resource Blocks. In case there is more than one item in the
list, the first item contains the most preferred value. Corresponds
to parameter dl_Bandwidth in MIB (Master Information Block) in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}. and to parameter NRB in
{{bibref|3GPP-TS.36.101|Table 5.6-1}}. If LTE FAP supports
self-configuration capability for {{param}} and more than one item is
configured, then LTE FAP is expected to select one from the list and
overwrite this parameter containing only the one selected. If LTE FAP
does not support self-configuration capability for {{param}} and more
than one item is configured, then LTE FAP accepts the first value and
ignore the rest. If only one item is configured regardless of the
self-configuration capability of LTE FAP, LTE FAP accepts the value
as an explicit configuration by the ACS.
{{list}} Each item is an uplink transmission bandwidth, specified in
number of Resource Blocks. In case there is more than one item in the
list, the first item contains the most preferred value. Corresponds
to parameter ul_Bandwidth in SIB2 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}. and to parameter NRB in {{bibref|3GPP-TS.36.101|Table
5.6-1}}. If LTE FAP supports self-configuration capability for
{{param}} and more than one item is configured, then LTE FAP is
expected to select one from the list and overwrite this parameter
containing only the one selected. If LTE FAP does not support
self-configuration capability for {{param}} and more than one item is
configured, then LTE FAP accepts the first value and ignore the rest.
If only one item is configured regardless of the self-configuration
capability of LTE FAP, LTE FAP accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a downlink reference-signal transmit power,
specified in dBm, with a numeric range between -60 and 50 inclusive.
In case there is more than one item in the list, the first item
contains the most preferred value. Defined as the linear average over
the power contributions (in W) of all resource elements that carry
cell-specific reference signals within the operating system
bandwidth. Corresponds to parameter referenceSignalPower in
PDSCH-Config IE in {{bibref|3GPP-TS.36.331|Section 6.3.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If LTE FAP supports self-configuration capability for {{param}} and
more than one item is configured, then LTE FAP is expected to select
one from the list and overwrite this parameter containing only the
one selected. If LTE FAP does not support self-configuration
capability for {{param}} and more than one item is configured, then
LTE FAP accepts the first value and ignore the rest. If only one item
is configured regardless of the self-configuration capability of LTE
FAP, LTE FAP accepts the value as an explicit configuration by the
ACS.
{{list}} Each item is a physical cell ID with a numeric range between
0 and 503 inclusive. Represents the list of physical cell identities
LTE FAP to choose from. In case there is more than one item in the
list, the first item contains the most preferred value. As specified
in {{bibref|3GPP-TS.36.211|Section 6.11}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If LTE FAP supports self-configuration capability for {{param}} and
more than one item is configured, then LTE FAP is expected to select
one from the list and overwrite this parameter containing only the
one selected. If LTE FAP does not support self-configuration
capability for {{param}} and more than one item is configured, then
accepts the first value and ignore the rest. If only one item is
configured regardless of the self-configuration capability of ,
accepts the value as an explicit configuration by the ACS.
{{list}} Each item is a power offset, specified in dB, of the Primary
Synchronization Channel with respect to the ReferenceSignalPower,
with a numeric range between -350 and 150 inclusive. In case there is
more than one item in the list, the first item contains the most
preferred value. The value of {{param}} divided by 10 yields the
actual value. The multiplicity of the {{param}} values can also be
expressed by defining a range using ".." (two periods) between two
values. In this case, the combination of two values defines the
lower-bound and upper-bound of the range inclusive. If this notation
is used, then the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a power offset, specified in dB, of the
Secondary Synchronization Channel with respect to the
ReferenceSignalPower, with a numeric range between -350 and 150
inclusive. In case there is more than one item in the list, the first
item contains the most preferred value. The value of {{param}}
divided by 10 yields the actual value. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a power offset, specified in dB, of the
Physical Broadcast Channel with respect to the ReferenceSignalPower,
with a numeric range between -350 and 150 inclusive. In case there is
more than one item in the list, the first item contains the most
preferred value. The value of {{param}} divided by 10 yields the
actual value. The multiplicity of the {{param}} values can also be
expressed by defining a range using ".." (two periods) between two
values. In this case, the combination of two values defines the
lower-bound and upper-bound of the range inclusive. If this notation
is used, then the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
This object contains parameters relating to the physical layer level
configuration.
This object contains parameters relating to the antenna configuration
(see {{bibref|3GPP-TS.32.592|Section 6.1.1.1}}).
Defines the number of cell specific antenna ports according to
{{bibref|3GPP-TS.36.211|Section 6.2.1}}. A UE in IDLE mode acquires
the information about the number of transmit antenna ports according
to {{bibref|3GPP-TS.36.212|Section 5.3.1.1}}. Corresponds to
antennaPortsCount IE specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}}.
This object contains parameters relating to the PDSCH (Physical
Downlink Shared Channel) configuration (see
{{bibref|3GPP-TS.32.592|Section 6.1.1.2}}).
{{list}} Each item is a Eb/Ea value with a numeric range between 0
and 3 inclusive. In case there is more than one item in the list, the
first item contains the most preferred value. The value of this
parameter is the same for all UEs in the cell. Eb repsents EPRE of
PDSCH REs type B, i.e. REs in OFDM symbols that include reference
symbols, as specified in {{bibref|3GPP-TS.36.213|Section 5.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a Ea/Ers value. In case there is more than one
item in the list, the first item contains the most preferred value.
Ea represents EPRE of PDSCH REs type A, i.e. REs in OFDM symbols that
do not include reference symbols. Ers represents EPRE of reference
symbols REs. Specified in {{bibref|3GPP-TS.36.213|Section 5.2}}.
Actual values of range are -6.00 to 3.00dB. The value of each item in
{{param}} divided by 100 yields the actual value. If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
This object contains parameters relating to the UL SRS (Sounding
Reference Signal) configuration (see {{bibref|3GPP-TS.32.592|Section
6.1.1.3}}).
Indicates whether UL SRS (Sounding RS) is enabled or not. If
{{true}}, UL Sounding RS is enabled. If {{false}}, UL Sounding RS is
disabled. Corresponds to SoundingRS-UL-ConfigCommonIE defined in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.
{{list}} Each item is a index into tables of cell specific SRS
Bandwidth Configuration, with a numeric range between 0 and 7
inclusive. In case there is more than one item in the list, the first
item contains the most preferred value. SRS Bandwidth Configuration
tables are specified in {{bibref|3GPP-TS.36.211|Table 5.5.3.2-1,
5.5.3.2-2, 5.5.3.2-3 and 5.5.3.2– 4}}. Corresponds to
srs-BandwidthConfig IE specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}}. The multiplicity of the {{param}} values can also be
expressed by defining a range using ".." (two periods) between two
values. In this case, the combination of two values defines the
lower-bound and upper-bound of the range inclusive. If this notation
is used, then the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Defines whether reconfiguration of SRS applies to UpPTS or not. If
{{true}}, SRS applies to UpPTS. If {{false}}, SRS does not apply to
UpPTS. Corresponds to srs-MaxUpPts specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and srsMaxUpPts specified in
{{bibref|3GPP-TS.36.211|Section 5.5.3.2}}. This parameter is
applicable to TDD mode only.
Defines whether a UE can simultaneously transmit SRS and HARQ
ACK/NACK or not. If {{true}}, simultaneous transmission is allowed.
If {{false}}, simultaneous transmission is not allowed. Corresponds
to ackNackSRS-SimultaneousTransmission specfied in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and Simultaneous-AN-and-SRS
specified in {{bibref|3GPP-TS.36.213|Section 8.2}}.
This object contains parameters relating to the PRACH (Physical Random
Access Channel) configuration (see {{bibref|3GPP-TS.32.592|Section
6.1.1.4}}).
{{list}} Each item is a Logical root sequence index with a numeric
range between 0 and 837 inclusive. In case there is more than one
item in the list, the first item contains the most preferred value.
Logical root sequence index is used to determine 64 physical RACH
preamble sequences available in the cell. Corresponds to
RACH_ROOT_SEQUENCE parameter defined in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and
{{bibref|3GPP-TS.36.211|Section 5.7.2}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is an index to the table defining PRACH resources
within the frame with a numeric range between 0 and 63 inclusive. In
case there is more than one item in the list, the first item contains
the most preferred value. Corresponds to PRACH-Configuration-Index
parameter defined in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and
{{bibref|3GPP-TS.36.211|Section 5.7.1}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Indicates whether restricted set or unrestricted set of preambles is
used. If {{true}}, indicates restricted set. If {{false}}, indicates
unrestricted set. Corresponds to highSpeedFlag parameter defined in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and high-speed-flag parameter
defined in {{bibref|3GPP-TS.36.211|Section 5.7.2}}.
{{list}} Each item is a value used for preamble sequence generation
with a numeric range between 0 and 15 inclusive. In case there is
more than one item in the list, the first item contains the most
preferred value. Each item corresponds to zeroCorrelationZoneConfig
parameter defined in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and to
NCS parameter defined in {{bibref|3GPP-TS.36.211|Section 5.7.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item represents the first available physical resource
block number for PRACH. In case there is more than one item in the
list, the first item contains the most preferred value. Corresponds
to prach-FreqOffset parameter defined in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and nPRBoffsetRA parameter
defined {{bibref|3GPP-TS.36.211|Section 5.7.1}}. The multiplicity of
the {{param}} values can also be expressed by defining a range using
".." (two periods) between two values. In this case, the combination
of two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
This object contains parameters relating to the PUCCH (Physical Uplink
Control Channel) configuration. (see {{bibref|3GPP-TS.32.592|Section
6.1.1.5}})
Defines the cyclic shift used for PUCCH formats 1/1a/1b in a resource
block used for a mix of formats 1/1a/1b and 2/2a/2b. It is an integer
multiple of deltaPUCCHShift within the range of {0, 1, ., 7} .
Corresponds to deltaPUCCH-Shift parameter defined in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and Delta-shiftPUCCH
parameter defined {{bibref|3GPP-TS.36.211|Section 5.4}}.
{{list}} Each item is a value that defines the bandwidth in terms of
resource blocks available for use by PUCCH formats 2/2a/2b
transmission in each slot, with a numeric range between 0 and 98
inclusive. In case there is more than one item in the list, the first
item contains the most preferred value. Corresponds to nRB-CQI
parameter defined in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and
NRB(2) parameter defined {{bibref|3GPP-TS.36.211|Section 5.4}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive.If this notation is used, then the
list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Defines the number of cyclic shift used for PUCCH formats 1/1a/1b in
a resource block used for a mix of formats 1/1a/1b and 2/2a/2b. The
value is an integer multiple of deltaPUCCHShift within the range of
{0, 1, ., 7}. Corresponds to nCS-AN parameter defined in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and NRB(1) parameter defined
{{bibref|3GPP-TS.36.211|Section 5.4}}.
{{list}} Each item is a value that determines resources used for
transmission of PUCCH format 1/1a/1b and 2/2a/2b, with a numeric
range between 0 and 2047 inclusive. In case there is more than one
item in the list, the first item contains the most preferred value.
Corresponds to n1PUCCH-AN parameter defined in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and NPUCCH(1) parameter
defined {{bibref|3GPP-TS.36.213|Section 10.1}}. The multiplicity of
the {{param}} values can also be expressed by defining a range using
".." (two periods) between two values. In this case, the combination
of two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a value that indicates the position of PUCCH,
with a numeric range between 0 and 1185 inclusive. In case there is
more than one item in the list, the first item contains the most
preferred value. . Corresponds to the cqi-PUCCH-ResourceIndex IE
specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}}. and to
parameter nPUCCH(2) specified in {{bibref|3GPP-TS.36.213|Section
7.2}}. The multiplicity of the {{param}} values can also be expressed
by defining a range using ".." (two periods) between two values. In
this case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Sub-band size for sub-band reporting mode expressed in units of
physical {{units}}, see {{bibref|3GPP-TS.36.213|Section 7.2.2}}. This
parameter corresponds to the K IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.
This object contains parameters relating to the PUSCH (Physical Uplink
Shared Channel) configuration (see {{bibref|3GPP-TS.32.592|Section
6.1.1.6}}).
Defines the number of sub-bands. This parameter corresponds to n-SB
parameter specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and
NSB parameter specified in {{bibref|3GPP-TS.36.211|Section 5.3.4}}.
Indicates if hopping is "inter-subframe" or "intra and
inter-subframe". Corresponds to hoppingMode parameter specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and Hopping-mode parameter
specified in {{bibref|3GPP-TS.36.211|Section 5.3.4}}.
{{list}} Each item is a value to compute the set of physical resource
blocks to be used for transmission on PUSCH if uplink frequency
hopping mode is enabled, with a numeric range between 0 and 98
inclusive. In case there is more than one item in the list, the first
item contains the most preferred value. This parameter corresponds to
pusch-HoppingOffset parameter specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and NRBHO parameter specified
in {{bibref|3GPP-TS.36.211|Section 5.3.4}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Indicates whether 64QAM is allowed or not. If {{true}}, 64QAM is
allowed. If {{false}}, 64QAM is not allowed. Corresponds to
enable64QAM parameter specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}}.
This object contains parameters relating to the ULRS (Uplink Reference
Signal) of PUSCH (Physical Uplink Shared Channel) configuration (see
{{bibref|3GPP-TS.32.592|Section 6.1.1.6.1}}).
Indicates whether group hopping is enabled or not. If {{true}}, group
hopping is enabled. If {{false}}, group hopping is not enabled.
Corresponds to groupHoppingEnabled parameter specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.and in
{{bibref|3GPP-TS.36.211|Section 5.5.1.3}}.
Corresponds to parameter groupAssignmentPUSCH specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.
Indicates whether sequence hopping is enabled or not. If {{true}},
sequence hopping is enabled. If {{false}}, sequence hopping is not
enabled. Corresponds to sequenceHoppingEnabled parameter specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.and in
{{bibref|3GPP-TS.36.211|Section 5.5.1.4}}.
Corresponds to parameter cyclcShift specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.
This object contains parameters relating to the uplink power control
configuration (see {{bibref|3GPP-TS.32.592|Section 6.1.1.7}}).
{{list}} Each item is a value to compute the UL UE transmit power for
transmission on PUSCH for semi-persistant grants, with a numeric
range between -126 and 24 inclusive. In case there is more than one
item in the list, the first item contains the most preferred value.
Corresponds to p0-NominalPUSCH parameter specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and PO_NOMINAL_PUSCH(0)
parameter specified in {{bibref|3GPP-TS.36.211|Section 5.1.1.1}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a value used to compute the UL UE transmit
power for transmission on PUSCH, from the list of 0, 4, 5, 6, 7, 8,
9, 100. In case there is more than one item in the list, the first
item contains the most preferred value. Actual values of range are
from 0.00 to 1.00. The value of {{param}} divided by 100 yields the
actual value. Corresponds to alpha parameter specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and to α parameter specified
in {{bibref|3GPP-TS.36.211|Section 5.1.1.1}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a value to compute the UL UE transmit power for
transmission on PUCCH, with a numeric range between -126 and 24
inclusive. In case there is more than one item in the list, the first
item contains the most preferred value. Corresponds to
p0-NominalPUCCH parameter specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and PO_NOMINAL_PUCCH
parameter specified in {{bibref|3GPP-TS.36.211|Section 5.1.2.1}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Defines deltaF-PUCCH-Format1 to derive the UE transmit power.
Corresponds to parameter ?F_PUCCH(1) in {{units}} as specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.213|Section 5.1.2}}.
Defines deltaF-PUCCH-Format1b to derive the UE transmit power.
Corresponds to parameter ?F_PUCCH(1b) in {{units}} dB as specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.213|Section 5.1.2}}.
Defines deltaF-PUCCH-Format2 to derive the UE transmit power.
Corresponds to parameter ?F_PUCCH(2) in {{units}} as specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.213|Section 5.1.2}}.
Defines deltaF-PUCCH-Format2a to derive the UE transmit power.
Corresponds to parameter ?F_PUCCH(2a) in {{units}} as specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.213|Section 5.1.2}}.
Defines deltaF-PUCCH-Format2b to derive the UE transmit power.
Corresponds to parameter ?F_PUCCH(2b) in {{units}} as specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.213|Section 5.1.2}}.
Defines the parameter in {{units}} used to compute the UL UE transmit
power for transmission of random access response grant. This
parameter corresponds to deltaPreambleMsg3 parameter specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and to ?PREAMBLE_Msg3
parameter specified in {{bibref|3GPP-TS.36.213|Section 5.1.1.1}}.
Actual value is 2x the value of this parameter.
This object contains parameters relating to the MBSFN (Multimedia
Broadcast multicast service Single Frequency Network) configuration
(see {{bibref|3GPP-TS.32.592|Section 6.1.1.8}}).
Defines the information related to MBSFN and TDD UL/DL configuration
of neighbour cells. Corresponds to NeighCellConfig IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.6}}. Value 0: Not all neighbour
cells have the same MBSFN sub-frame allocation as serving cell. Value
1: No MBSFN sub-frames are present in all neighbour cells. Value 2:
The MBSFN sub-frame allocations of all neighbour cells are identical
to or subsets of that in the serving cell. Value 3: Different UL/DL
allocation in neighbouring cells for TDD compared to the serving
cell.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.PHY.MBSFN.SFConfigList.{i}.}} table.
{{numentries}}
This object contains parameters relating to the sub-frame that are
reserved for MBSFN (Multimedia Broadcast multicast service Single
Frequency Network) in downlink direction. For FDD mode, only one entry
can exist in this table. For TDD mode, at most one entry can exist with
a given value of stratumID (see {{bibref|3GPP-TS.32.592|Section
6.1.1.8}}).
Enables or disables this entry.
{{datatype|expand}}
This parameter is applicable to TDD mode only. Defines the
synchronization stratum level to which the MBSFN configuration
applies.
Defines the period where MBSFN sub-frames occur in the radio frames.
Radio frames contain MBSFN sub-frame when the following condition is
met: ((SFN mod {{param}}) = {{param|RadioframeAllocationOffset}}).
The value of 1 and 2 are only meaningful when the value of
{{param|RadioFrameAllocationSize}} parameter is 1. Corresponds to
radioFrameAllocationPeriod IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
Defines the offset where MBSFN sub-frames occur in the radio frames.
Radio frames contain MBSFN sub-frame when the following condition is
met: ((SFN mod {{param|RadioFrameAllocationPeriod}}) = {{param}}).
Corresponds to radioFrameAllocationOffset IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
Defines the number of connsecutive frames that the MBSFN allocation
pertains to defined by the combination of
{{param|RadioFrameAllocationPeriod}} and
{{param|RadioframeAllocationOffset}} parameters.
{{list}} The value of "1" indicates the position of sub-frames that
is allocated to MBSFN within the radio frame. First item defines the
MBSFN allocation for sub-frame #1, second item for #2, third item for
#3, fourth item for #6, fifth item for #7, sixth item for #8. If the
value of {{param|RadioFrameAllocationSize}} is 4, then this pattern
repeats in the sequence of the four radio frames. The actual size of
this parameter depends on the value of
{{param|RadioFrameAllocationSize}} parameter. If the value of
{{param|RadioFrameAllocationSize}} is 1, then the size of this
parameter is 6; if the size {{param|RadioFrameAllocationSize}} is 4,
then the size of this parameter is 24. Corresponds to
subframeAllocation IE specified in {{bibref|3GPP-TS.36.331|Section
6.3.1}}.
This object contains parameters relating to the PRS (Positioning
Reference Signal) configuration (see {{bibref|3GPP-TS.32.592|Section
6.1.1.9}}).
Defines the number of RBs ({{units}}) used for PRS. Corresponds to
the parameter NRBPRS in {{bibref|3GPP-TS.36.211|Section 6.10.4.1}}.
Corresponds to the PRS configuration index defined as parameter IPRS
in {{bibref|3GPP-TS.36.211|Section 6.10.4.3 and Table 6.10.4.3.-1}}.
Defines the number of consecutive positioning sub-frames. Corresponds
to the parameter NPRS in {{bibref|3GPP-TS.36.211|Section 6.10.4.3}}.
This object is applicable to TDD mode only. This object contains
parameters relating to the TDD frame structure configuration (see
{{bibref|3GPP-TS.32.592|Section 6.1.1.10}}).
Defines the DL/UL sub-frame configuration. Corresponds to
subframAssignment specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}} and {{bibref|3GPP-TS.36.211|Table 4.2.2}}.
Defines the configuration of the special sub-frame that contains the
guard period between the downlink and uplink transmissions.
Corresponds to the specialSubframePatterns specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and
{{bibref|3GPP-TS.36.211|Table 4.2.1}}.
This object contains parameters relating to the MAC (Medium Access
Control) configuration.
This object contains parameters relating to the RACH (Random Access
Channel) configuration (see {{bibref|3GPP-TS.32.592|Section 6.1.2.1}}).
{{list}} Each item is a number of non-dedicated random access
preambles. Only values in multiple of 4 are valid (i.e. 4, 8, 12,
16,...64); use of other values within the defined range MUST be
rejected by the CPE. In case there is more than one item in the list,
the first item contains the most preferred value. Corresponds to
parameter numberOfRA-Preambles specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.1.1}}. If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a number of non-dedicated random access
preambles in Random Acces Preambles group A. Only values in multiple
of 4 are valid (i.e. 4, 8, 12, 16,...60); use of other values within
the defined range MUST be rejected by the CPE. In case there is more
than one item in the list, the first item contains the most preferred
value. Corresponds to parameter sizeOfRA-PreamblesGroupA specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.1.1}}. If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a threshold for preamble selection, specified
in bits. In case there is more than one item in the list, the first
item contains the most preferred value. Defined in
{{bibref|3GPP-TS.36.321|Section 5.1.2}}. Corresponds to parameter
messageSizeGroupA specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}}. If supports self-configuration capability for {{param}} and
more than one item is configured, then is expected to select one from
the list and overwrite this parameter containing only the one
selected. If does not support self-configuration capability for
{{param}} and more than one item is configured, then accepts the
first value and ignore the rest. If only one item is configured
regardless of the self-configuration capability of , accepts the
value as an explicit configuration by the ACS.
{{list}} Each item is a threshold for preamble selection, specified
in dB. In case there is more than one item in the list, the first
item contains the most preferred value. Defined in
{{bibref|3GPP-TS.36.321|Section 5.1.2}}. Corresponds to parameter
messagePowerOffsetGroupB specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}}. Value of -1 indicates "minusinfinity." If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a power increase factor between subsequent
random access preamble transmissions, specified in dB. In case there
is more than one item in the list, the first item contains the most
preferred value. Corresponds to parameter powerRampingStep specified
in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.1.3}}. If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a value used as the baseline for computation
for random access transmission power, specified in dBm. Also used as
a parameter in the criteria for preamble selection. Only even values
are valid (i.e. -120, -118, -116,...-90); use of other values within
the defined range MUST be rejected by the CPE. In case there is more
than one item in the list, the first item contains the most preferred
value. Corresponds to parameter preambleInitialReceivedTargetPower
specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.1.2}}. and section 5.1.3. If
supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a maximum number of random access preamble
transmissions, from the list of 3, 4, 5, 6, 7, 8, 10, 20, 50, 100,
200. In case there is more than one item in the list, the first item
contains the most preferred value. Corresponds to parameter
preambleTransMax specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}}
and in {{bibref|3GPP-TS.36.321|Section 5.1.4 and section 5.1.5}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a duration of the random access response
window, specified in sub-frames, with a numeric range between 2 and
10 inclusive (except value of 9). In case there is more than one item
in the list, the first item contains the most preferred value.
Corresponds to parameter ra-ResponseWindowSize specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.1.4}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a contention resolution timer, specified in
sub-frames. Only values multiple of 8 are valid (i.e. 8, 16,
24,...64); use of other values within the defined range MUST be
rejected by the CPE. In case there is more than one item in the list,
the first item contains the most preferred value. Corresponds to
parameter mac-ContentionResolutionTimer specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.1.5}}. If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a maximum number of Msg3 HARQ transmissions by
RRC, with a numeric range between 1 and 8 inclusive. In case there is
more than one item in the list, the first item contains the most
preferred value. Corresponds to parameter maxHARQ-Msg3Tx specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.4.2.2}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
This object contains parameters relating to the DRX (Discontinuous
Reception) configuration (see {{bibref|3GPP-TS.32.592|Section
6.1.2.2}}).
Specifies whether DRX operation is enabled or not. If {{true}}, DRX
operation is enabled. If {{false}}, DRX operation is not enabled.
Corresponds to drx-Configuration IE defined in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.
{{list}} Each item is the DRX cycle during which UE actively monitors
PDCCH, specified in number of PDCCH sub-frames, from the list of 1,
2, 3, 4, 5, 6, 8, 10, 20, 30, 40, 50, 60, 80, 100, 200. In case there
is more than one item in the list, the first item contains the most
preferred value. Corresponds to parameter onDurationTimer specified
in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.7}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item defines the number of inactive consecutive PDCCH
sub-frame(s) that will activate short DRX cycle, specified in number
of PDCCH sub-frames, from the list of 1, 2, 3, 4, 5, 6, 8, 10, 20,
30, 40, 50, 60, 80, 100, 200, 300, 500, 750, 1280, 1920, 2560. In
case there is more than one item in the list, the first item contains
the most preferred value. Corresponds to parameter
drx-InactivityTimer specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}} and in {{bibref|3GPP-TS.36.321|Section 5.7}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item defines the maximum number of consecutive PDCCH
sub-frame(s) UE MUST remain active expecting a DL retransmission,
specified in number of PDCCH sub-frames. In case there is more than
one item in the list, the first item contains the most preferred
value. The timer is started when a HARQ RTT Timer expires and the
data in the soft buffer of the corresponding HARQ process was not
successfully decoded. There is one timer for each active HARQ
process. Corresponds to parameter drx-RetransmissionTimer specified
in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.7}}. If supports self-configuration
capability for {{param}} and more than one item is configured, then
is expected to select one from the list and overwrite this parameter
containing only the one selected. If does not support
self-configuration capability for {{param}} and more than one item is
configured, then accepts the first value and ignore the rest. If only
one item is configured regardless of the self-configuration
capability of , accepts the value as an explicit configuration by the
ACS.
{{list}} Each item is long DRX Cycle value, specified in number of
sub-frames. In case there is more than one item in the list, the
first item contains the most preferred value. If shortDRX-Cycle is
configured, this value MUST be a multiple of the
{{param|ShortDRXCycle}} value. Corresponds to longDRX-Cycle parameter
specified in {{bibref|3GPP-TS.36.321|Section 5.7}} and
longDRX-CycleStartOffset specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}}. If supports self-configuration capability for {{param}} and
more than one item is configured, then is expected to select one from
the list and overwrite this parameter containing only the one
selected. If does not support self-configuration capability for
{{param}} and more than one item is configured, then accepts the
first value and ignore the rest. If only one item is configured
regardless of the self-configuration capability of , accepts the
value as an explicit configuration by the ACS.
{{list}} Each item defines the starting frame of the DRX cycle within
the long DRX cycle, with a numeric range between 0 and 2559
inclusive. In case there is more than one item in the list, the first
item contains the most preferred value. The valid value range is
dependent on {{param|LongDRXCycle}} parameter which defines the upper
bound of this range, i.e., range definition is [0:
({{param|LongDRXCycle}}-1)]. Corresponds to drxStartOffset parameter
specified in {{bibref|3GPP-TS.36.321|Section 5.7}}. Use of values
bigger than ({{param|LongDRXCycle}}-1) MUST be rejected by the CPE.
The multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is the short DRX Cycle value, specified in number
of sub-frames. In case there is more than one item in the list, the
first item contains the most preferred value. If shortDRX-Cycle is
configured, the value of {{param|LongDRXCycle}} MUST be a multiple of
the {{param}} value. Corresponds to shortDRX-Cycle parameter
specified in {{bibref|3GPP-TS.36.321|Section 5.7}}. If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item defined the duration of the short DRX cycle in
multiples of {{param|ShortDRXCycle}} parameter, specified in number
of sub-frames, with a numeric range between 1 and 16 inclusive. In
case there is more than one item in the list, the first item contains
the most preferred value. Denotes the number of consecutive
sub-frame(s)the UE shall follow the short DRX cycle after the DRX
Inactivity Timer has expired. Corresponds to drxShortCycleTimer
parameter specified in {{bibref|3GPP-TS.36.321|Section 5.7}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
This object contains parameters relating to the ULSCH (Uplink Shared
Channel) configuration (see {{bibref|3GPP-TS.32.592|Section 6.1.2.3}}).
Maximum number of UL HARQ transmissions. Corresponds to parameter
maxHARQ-Tx specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and
in {{bibref|3GPP-TS.36.321|Section 5.4.2.2}}.
Timer for Periodic BSR (Buffer Status Report) reporting, specified in
number of {{units}}. UE transmits periodic BSR at the expiration of
this timer. Corresponds to parameter periodicBSR-Timer specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.4.5}}. Value of 0 indicates
"infinity."
Timer for Regular BSR reporting, specified in number of {{units}}. UE
transmits a Regular BSR at the expiration of this timer if data is
available in the buffer. Corresponds to parameter retxBSR-Timer
specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.321|Section 5.4.5}}.
Enables/disables TTI bundling. If {{true}}, TTI bundling is enabled.
If {{false}}, TTI bundling is disabled. Corresponds to parameter
ttiBundling specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and
in {{bibref|3GPP-TS.36.321|Section 5.4.2.1}}.
This object contains parameters relating to the RLC (Radio Link
Control) configuration.
This object contains parameters relating to the SRB1 (Signaling Radio
Bearer 1) configuration (see {{bibref|3GPP-TS.32.592|Section
6.1.3.1}}).
Indicates the whether default RLC configuration for SRB1 is used or
not. If {{true}}, the default RLC configuration is used as specified
in {{bibref|3GPP-TS.36.331|Section 9.2.1.1}}. In this case, rest of
the parameters defined under the current object are ignored by the
CPE. If {{false}}, rest of the parameters defined under the current
object are used by the CPE for RLC configuration.
{{list}} Each item is a timer between successive poll transmissions,
specified in milliseconds, specified in milliseconds, with a numeric
range between 5 and 500 inclusive. Only the multiple of 5 are valid
in the range between 5 and 250 inclusive (i.e. 5, 10, 15, 20,...
250), and only the multiple of 50 are valid in the range between 300
and 500 inclusive (i.e., 300, 350, 400, 450, 500). If the value is
other than these, the CPE MUST reject the value. In case there is
more than one item in the list, the first item contains the most
preferred value. This parameter is valid only if
{{param|DefaultConfiguration}} paramter under the current object is
set to {{false}}. Corresponds to t-PollRetransmit IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.2.2}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a counter of PDUs between successive poll
transmissions, specified in the number of PDUs. In case there is more
than one item in the list, the first item contains the most preferred
value. This parameter is valid only if {{param|DefaultConfiguration}}
paramter under the current object is set to {{false}}. Corresponds to
pollPDU IE specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and
in {{bibref|3GPP-TS.36.322|Section 5.2.2.1}}. Value of 0 indicates
"infinity." If supports self-configuration capability for {{param}}
and more than one item is configured, then is expected to select one
from the list and overwrite this parameter containing only the one
selected. If does not support self-configuration capability for
{{param}} and more than one item is configured, then accepts the
first value and ignore the rest. If only one item is configured
regardless of the self-configuration capability of , accepts the
value as an explicit configuration by the ACS.
{{list}} Each item is a counter of PDU bytes transmitted between
successive poll transmissions, specified in kilobytes. In case there
is more than one item in the list, the first item contains the most
preferred value. This parameter is valid only if
{{param|DefaultConfiguration}} paramter under the current object is
set to {{false}}. Corresponds to pollByte IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.2.2.1}}. Value of 0 indicates
infinite amount of kilobytes. If supports self-configuration
capability for {{param}} and more than one item is configured, then
is expected to select one from the list and overwrite this parameter
containing only the one selected. If does not support
self-configuration capability for {{param}} and more than one item is
configured, then accepts the first value and ignore the rest. If only
one item is configured regardless of the self-configuration
capability of , accepts the value as an explicit configuration by the
ACS.
{{list}} Each item defines the maximum number of transmission retry
used by the RLC entity to limit the number of retransmissions of an
AMD PDU. In case there is more than one item in the list, the first
item contains the most preferred value. This parameter is valid only
if {{param|DefaultConfiguration}} paramter under the current object
is set to {{false}}. Corresponds to maxRetxThreshold IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.2.1}}. If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item defines a timer used by the receiving side of an
RLC entity in order to detect loss of RLC PDUs at lower layer,
specified in milliseconds, with a numeric range between 0 and 200
inclusive. Only the multiple of 5 are valid in the range between 0
and 100 inclusive (i.e. 0, 5, 10, 15,...,100), and only the multiple
of 10 are valid in the range between 110 and 200 inclusive (110, 120,
130,...,200). If the value is other than these, the CPE MUST reject
the value. In case there is more than one item in the list, the first
item contains the most preferred value. This parameter is valid only
if {{param|DefaultConfiguration}} paramter under the current object
is set to {{false}}. Corresponds to t-Reordering IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.1.2.2. and 5.1.3.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item defines a timer used by the receiving side of an
AM RLC entity in order to prohibit transmission of a STATUS PDU,
specified in milliseconds, with a numeric range between 0 and 500
inclusive. Only the multiple of 5 are valid in the range between 0
and 250 inclusive (i.e. 0, 5, 10, 15,...,250), and only the multiple
of 50 are valid in the range between 300 and 500 inclusive (i.e. 300,
350, 400, 450, 500). If the value is other than these, the CPE MUST
reject the value. In case there is more than one item in the list,
the first item contains the most preferred value. This parameter is
valid only if {{param|DefaultConfiguration}} paramter under the
current object is set to {{false}}. Corresponds to t-StatusProhibit
IE specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.2.3}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
This object contains parameters relating to the SRB2 (Signaling Radio
Bearer 2) configuration (see {{bibref|3GPP-TS.32.592|Section
6.1.3.1}}).
Indicates the whether default RLC configuration for SRB1 is used or
not. If {{true}}, the default RLC configuration is used as specified
in {{bibref|3GPP-TS.36.331|Section 9.2.1.1}}. In this case, rest of
the parameters defined under the current object are ignored by the
CPE. If {{false}}, rest of the parameters defined under the current
object are used by the CPE for RLC configuration.
{{list}} Each item is a timer between successive poll transmissions,
specified in milliseconds, with a numeric range between 5 and 500
inclusive. Only the multiple of 5 are valid in the range between 5
and 250 inclusive (i.e. 5, 10, 15, 20,... 250), and only the multiple
of 50 are valid in the range between 300 and 500 inclusive (i.e.,
300, 350, 400, 450, 500). If the value is other than these, the CPE
MUST reject the value. In case there is more than one item in the
list, the first item contains the most preferred value. This
parameter is valid only if {{param|DefaultConfiguration}} paramter
under the current object is set to {{false}}. Corresponds to
t-PollRetransmit IE specified in {{bibref|3GPP-TS.36.331|Section
6.3.2}} and in {{bibref|3GPP-TS.36.322|Section 5.2.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a counter of PDUs between successive poll
transmissions, specified in the number of PDUs. In case there is more
than one item in the list, the first item contains the most preferred
value. This parameter is valid only if {{param|DefaultConfiguration}}
paramter under the current object is set to {{false}}. Corresponds to
pollPDU IE specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and
in {{bibref|3GPP-TS.36.322|Section 5.2.2.1}}. Value of 0 indicates
"infinity." If supports self-configuration capability for {{param}}
and more than one item is configured, then is expected to select one
from the list and overwrite this parameter containing only the one
selected. If does not support self-configuration capability for
{{param}} and more than one item is configured, then accepts the
first value and ignore the rest. If only one item is configured
regardless of the self-configuration capability of , accepts the
value as an explicit configuration by the ACS.
{{list}} Each item is a counter of PDU bytes transmitted between
successive poll transmissions, specified in kilobytes. In case there
is more than one item in the list, the first item contains the most
preferred value. This parameter is valid only if
{{param|DefaultConfiguration}} paramter under the current object is
set to {{false}}. Corresponds to pollByte IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.2.2.1}}. Value of 0 indicates
infinite amount of kilobytes. If supports self-configuration
capability for {{param}} and more than one item is configured, then
is expected to select one from the list and overwrite this parameter
containing only the one selected. If does not support
self-configuration capability for {{param}} and more than one item is
configured, then accepts the first value and ignore the rest. If only
one item is configured regardless of the self-configuration
capability of , accepts the value as an explicit configuration by the
ACS.
{{list}} Each item defines the maximum number of transmission retry
used by the RLC entity to limit the number of retransmissions of an
AMD PDU. In case there is more than one item in the list, the first
item contains the most preferred value. This parameter is valid only
if {{param|DefaultConfiguration}} paramter under the current object
is set to {{false}}. Corresponds to maxRetxThreshold IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.2.1}}. If supports
self-configuration capability for {{param}} and more than one item is
configured, then is expected to select one from the list and
overwrite this parameter containing only the one selected. If does
not support self-configuration capability for {{param}} and more than
one item is configured, then accepts the first value and ignore the
rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item defines a timer used by the receiving side of an
RLC entity in order to detect loss of RLC PDUs at lower layer,
specified in milliseconds, with a numeric range between 0 and 200
inclusive. Only the multiple of 5 are valid in the range between 0
and 100 inclusive (i.e. 0, 5, 10, 15,...,100), and only the multiple
of 10 are valid in the range between 110 and 200 inclusive (110, 120,
130,...,200). If the value is other than these, the CPE MUST reject
the value. In case there is more than one item in the list, the first
item contains the most preferred value. This parameter is valid only
if {{param|DefaultConfiguration}} paramter under the current object
is set to {{false}}. Corresponds to t-Reordering IE specified in
{{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.1.2.2. and 5.1.3.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item defines a timer used by the receiving side of an
AM RLC entity in order to prohibit transmission of a STATUS PDU,
specified in milliseconds, with a numeric range between 0 and 500
inclusive. Only the multiple of 5 are valid in the range between 0
and 250 inclusive (i.e. 0, 5, 10, 15,...,250), and only the multiple
of 50 are valid in the range between 300 and 500 inclusive (i.e. 300,
350, 400, 450, 500). If the value is other than these, the CPE MUST
reject the value. In case there is more than one item in the list,
the first item contains the most preferred value. This parameter is
valid only if {{param|DefaultConfiguration}} paramter under the
current object is set to {{false}}. Corresponds to t-StatusProhibit
IE specified in {{bibref|3GPP-TS.36.331|Section 6.3.2}} and in
{{bibref|3GPP-TS.36.322|Section 5.2.3}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
This object contains parameters relating to the RRC timers and
constants (see {{bibref|3GPP-TS.32.592|Section 6.1.6.1}}) and (see
{{bibref|3GPP-TS.32.592|Section 6.1.6.2}}).
{{list}} Each item is an interval, in milliseconds, between
subsequent transmissions of RRCConnectionRequest. In case there is
more than one item in the list, the first item contains the most
preferred value. Corresponds to parameter t300 specified in
UE-TimersAndConstants IE in {{bibref|3GPP-TS.36.331|Section 6.3.6}}.
Start/stop/expirary condition is defined in
{{bibref|3GPP-TS.36.331|Section 7.3}}. If supports self-configuration
capability for {{param}} and more than one item is configured, then
is expected to select one from the list and overwrite this parameter
containing only the one selected. If does not support
self-configuration capability for {{param}} and more than one item is
configured, then accepts the first value and ignore the rest. If only
one item is configured regardless of the self-configuration
capability of , accepts the value as an explicit configuration by the
ACS.
{{list}} Each item is an interval, in milliseconds, between
subsequent transmissions of RRCConnectionReestablishmentRequest. In
case there is more than one item in the list, the first item contains
the most preferred value. Corresponds to parameter t301 specified in
UE-TimersAndConstants IE in {{bibref|3GPP-TS.36.331|Section 6.3.6}}.
Start/stop/expirary condition is defined in
{{bibref|3GPP-TS.36.331|Section 7.3}}. If supports self-configuration
capability for {{param}} and more than one item is configured, then
is expected to select one from the list and overwrite this parameter
containing only the one selected. If does not support
self-configuration capability for {{param}} and more than one item is
configured, then accepts the first value and ignore the rest. If only
one item is configured regardless of the self-configuration
capability of , accepts the value as an explicit configuration by the
ACS.
Time to wait in {{units}} for cell re-selection or RRConnectionSetup
after RRCConnectionReject. Start/stop/expirary condition is defined
in {{bibref|3GPP-TS.36.331|Section 7.3}}.
{{list}} Each item is a HO failure timer, in milliseconds. In case
there is more than one item in the list, the first item contains the
most preferred value. Corresponds to t304 defined within IE
MobilityControlInfo in RRCConnectionReconfiguration message in
{{bibref|3GPP-TS.36.331|Section 5.3.5.4 and Section 6.3.4}}.
Start/stop/expirary condition is defined in
{{bibref|3GPP-TS.36.331|Section 7.3}}. If supports self-configuration
capability for {{param}} and more than one item is configured, then
is expected to select one from the list and overwrite this parameter
containing only the one selected. If does not support
self-configuration capability for {{param}} and more than one item is
configured, then accepts the first value and ignore the rest. If only
one item is configured regardless of the self-configuration
capability of , accepts the value as an explicit configuration by the
ACS.
{{list}} Each item is a HO failure timer, in milliseconds. In case
there is more than one item in the list, the first item contains the
most preferred value. Corresponds to t304 defined within IE
CellChangeOrder in MobilityFromEUTRACommand message in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}. Start/stop/expirary
condition is defined in {{bibref|3GPP-TS.36.331|Section 7.3}}. If
supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a RLF declaration timer, in milliseconds. In
case there is more than one item in the list, the first item contains
the most preferred value. Corresponds to parameter t310 specified in
RLF-TimersAndConstants IE in {{bibref|3GPP-TS.36.331|Section 6.3.6}}.
Start/stop/expirary condition is defined in
{{bibref|3GPP-TS.36.331|Section 7.3}}. If supports self-configuration
capability for {{param}} and more than one item is configured, then
is expected to select one from the list and overwrite this parameter
containing only the one selected. If does not support
self-configuration capability for {{param}} and more than one item is
configured, then accepts the first value and ignore the rest. If only
one item is configured regardless of the self-configuration
capability of , accepts the value as an explicit configuration by the
ACS.
{{list}} Each item is a RLF recovery timer, in milliseconds. In case
there is more than one item in the list, the first item contains the
most preferred value. Corresponds to parameter t311 specified in
RLF-TimersAndConstants IE in {{bibref|3GPP-TS.36.331|Section 6.3.6}}.
Start/stop/expirary condition is defined in
{{bibref|3GPP-TS.36.331|Section 7.3}}. If supports self-configuration
capability for {{param}} and more than one item is configured, then
is expected to select one from the list and overwrite this parameter
containing only the one selected. If does not support
self-configuration capability for {{param}} and more than one item is
configured, then accepts the first value and ignore the rest. If only
one item is configured regardless of the self-configuration
capability of , accepts the value as an explicit configuration by the
ACS.
Time in {{units}} after RRCConnection Release in which cell
re-selection priority info supplied in RRCConnectionRelease MUST be
observed. Start/stop/expirary condition is defined in
{{bibref|3GPP-TS.36.331|Section 7.3}}. Corresponds to parameter t320
specified in RRCConnectionRelease message in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}. S
Number of consecutive "out-of-sync" indications received from lower
layers that triggers timer T310. Corresponds to parameter n310
specified in UE-TimersAndConstants IE in
{{bibref|3GPP-TS.36.331|Section 6.3.6 and Section 7.3}}.
Number of consecutive "in-sync" indications received from lower
layers that stops timer T310. Corresponds to parameter n311 specified
in UE-TimersAndConstants IE in {{bibref|3GPP-TS.36.331|Section 6.3.6
and Section 7.3}}.
This object contains parameters relating to the cell restriction
configuration.
Indicates whether the is barred or not. If {{true}}, the cell is
barred. If {{false}}, the cell is not barred. Corresponds to
parameter CellBarred specified in SIB1 in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}.
Indicates whether the is reserved for operator's use or not. If
{{true}}, the cell is reserved for operator use. If {{false}}, the
cell is not reserved for operator use. Corresponds to parameter
cellReservedForOperatorUse specified in SIB1 in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}.
Indicates whether the is barred for Access Class 10 or not. If
{{true}}, the cell is barred for Access Class 10. If {{false}}, the
cell is not barred for Access Class 10. Corresponds to parameter
ac-BarringForEmergency specified in SIB2 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
This object contains parameters relating to the UE's mobility
configuration. It covers both idle mode and connected mode.
This object contains parameters relating to the UE's mobility while it
is in idle mode (cell (re-)selection). Parameters under this object
determines the content in the SIB (System Information Block) that is
broadcast by LTE .
This object contains parameters relating to the idle mode mobility
configuration that is common to all cell re-selection scenarios
(intra/inter-freq, inter-RAT to UTRA (UMTS), GERAN (GSM) and CDMA2000)
(see {{bibref|3GPP-TS.32.592|Section 6.1.5.1.1}}).
{{list}} Each item is a hysteresis value applied to serving cell for
evaluating cell ranking criteria specified in dB, with a numeric
range between 0 and 24 inclusive. For the value greater than 6, only
even numbers are valid. If the value is other than these, the CPE
MUST reject the value. In case there is more than one item in the
list, the first item contains the most preferred value. Corresponds
to parameter q-Hyst specified in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Speed-dependent scaling factor for Qhyst in Medium-mobility state,
specified in {{units}}. Corresponds to parameter q-HystSF:sf-Medium
specified in SIB3 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Speed-dependent scaling factor for Qhyst in High-mobility state,
specified in {{units}}. Corresponds to parameter q-HystSF:sf-High
specified in SIB3 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Duration for evaluating allowed amount of cell re-selection(s)
required to enter mobility states, specified in {{units}}.
Corresponds to parameter t-Evaluation specified in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.4}} and to parameter TCRmax
specified in {{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Additional duration for evaluating criteria to enter normal mobility
state, specified in {{units}}. Specifies the additional time period
for evaluating criteria to enter Normal-mobility state. Corresponds
to parameter t-HystNormal specified in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.4}} and to parameter TCRmaxHyst
specified in {{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Defines the number of cell re-selections within TEvaluation to enter
Medium-mobility state. Corresponds to parameter n-cellChangeMedium
specified in SIB3 in {{bibref|3GPP-TS.36.331|Section 6.3.4}} and to
parameter NCR_M specified in {{bibref|3GPP-TS.36.304|Section
5.2.4.3}}.
Defines the number of cell re-selections within TEvaluation to enter
High-mobility state. Corresponds to parameter n-cellChangeHigh
specified in SIB3 in {{bibref|3GPP-TS.36.331|Section 6.3.4}} and to
parameter NCR_H specified in {{bibref|3GPP-TS.36.304|Section
5.2.4.3}}.
This object contains parameters relating to the idle mode mobility
configuration for intra-freq re-selection scenario (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.1.2}}).
{{list}} Each item is a required minimum received RSRP level of a
E-UTRA cell for cell selection, specified in dBm, with a numeric
range between -70 and -22 inclusive. In case there is more than one
item in the list, the first item contains the most preferred value.
The value of ({{param}} * 2) yields the actual value. Corresponds to
parameter q-rxLevMin in SIB1 in {{bibref|3GPP-TS.36.331|Section
6.2.2}} and in {{bibref|3GPP-TS.36.304|Section 5.2.3.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a required minimum received RSRP level for
intra-frequency E-UTRA cell re-selection, specified in dBm, with a
numeric range between -70 and -22 inclusive. In case there is more
than one item in the list, the first item contains the most preferred
value. The value of ({{param}} * 2) yields the actual value.
Corresponds to parameter q-rxLevMin in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.3.2}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Defines offset with respect to QrxLevMin, specified in {{units}}.
This offset is taken into account in the computation of Srxlev for
cell selection evaluation of cells detected during a periodic search
for a higher priority PLMN while camped normally in a VPLMN. The
value of ({{param}} * 2) yields the actual value. Corresponds to
parameter q-rxLevMinOffset in SIB1 specified in
{{bibref|3GPP-TS.36.331|Section 6.2.2}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.3.2}}.
{{list}} Each item is a threshold for intra-frequency measurements,
specified in dB, with a numeric range between 0 and 31 inclusive. In
case there is more than one item in the list, the first item contains
the most preferred value. The value of ({{param}} * 2) yields the
actual value. Corresponds to parameter s-IntraSearch specified in
SIB3 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a cell re-selection timer for intra-frequency
E-UTRA cell re-selection, specified in seconds, with a numeric range
between 0 and 7 inclusive. In case there is more than one item in the
list, the first item contains the most preferred value. Corresponds
to parameter t-ReselectionEUTRA specified in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a threshold for inter-frequency and inter-RAT
measurements with lower or equal priority, specified in dB, with a
numeric range between 0 and 31 inclusive. In case there is more than
one item in the list, the first item contains the most preferred
value. The value of ({{param}} * 2) yields the actual value.
Corresponds to parameter s-NonIntraSearch specified in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Absolute priority of the E-UTRAN serving carrier frequency used in
the inter-frequency and inter-RAT cell re-selection procedure.
Corresponds to parameter CellReselectionPriority specified in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}.
Used to limit the allowed UE uplink transmission power on the serving
frequency, specified in {{units}}. It is used to calculate the
parameter Pcompensation defined in {{bibref|3GPP-TS.36.304|Section
5.2.3.2}}. Corresponds to parameter p-Max specified in SIB1 and SIB3
in {{bibref|3GPP-TS.36.331|Section 6.3.1 and Section 6.3.4}}.
Threshold for serving frequency used in evaluation of re-selection
towards lower priority E-UTRAN frequency or inter-RAT, specified in
{{units}}. The value of ({{param}} * 2) yields the actual value.
Corresponds to parameter threshServingLow specified in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}.
Scaling factor for intra-frequency TreselectionEUTRA in
Medium-mobility state. The value of {{param}} divided by 100 yields
the actual SF value. Corresponds to parameter
t-ReselectionEUTRA-SF:sf-Medium specified in SIB3 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Scaling factor for intra-frequency TreselectionEUTRA in High-mobility
state. The value of {{param}} divided by 100 yields the actual SF
value. Corresponds to parameter t-ReselectionEUTRA-SF:sf-High
specified in SIB3 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
This object contains parameters relating to the idle mode mobility
configuration for inter-freq re-selection scenario .
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.Mobility.IdleMode.InterFreq.Carrier.{i}.}}
table.
{{numentries}}
This object contains parameters relating to the carrier information for
inter-freq re-selection scenario (see {{bibref|3GPP-TS.32.592|Section
6.1.5.1.3}}).
Enables or disables this entry.
{{datatype|expand}}
Indicates the ARFCN of this frequency carrier. Corresponds to
parameter dl-CarrierFreq in SIB5 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}.
{{list}} Each item is a required minimum received RSRP level on this
E-UTRA frequency carrier, spcified in dBm, with a numeric range
between -70 and -22 inclusive. In case there is more than one item in
the list, the first item contains the most preferred value. The value
of ({{param}} * 2) yields the actual value. Corresponds to parameter
q-rxLevMin in SIB5 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.3.2}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is an offset applicable between serving and this
frequency carrier, specified in dBm, with a numeric range between -24
and 24 inclusive. For values less than or equal to -6, or values
greater than or equal to 6, only the even values are valid. If the
value is other than these, the CPE MUST reject the value. In case
there is more than one item in the list, the first item contains the
most preferred value. The value of ({{param}} * 2) yields the actual
value. Corresponds to parameter q-OffsetFreq in SIB5 specified in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.4.2.6}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a cell re-selection timer for inter-frequency
cell re-selection to this E-UTRA frequency carrier, specified in
seconds, with a numeric range between 0 and 7 inclusive. In case
there is more than one item in the list, the first item contains the
most preferred value. Corresponds to parameter t-ReselectionEUTRA
specified in SIB5 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Absolute priority of this E-UTRA frequency carrier, as used by the
inter-frequency cell re-selection procedure. Corresponds to parameter
CellReselectionPriority specified in SIB5 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}.
Threshold used when re-selecting from a lower priority E-UTRAN
frequency, specified in {{units}}. The value of ({{param}} * 2)
yields the actual value. Corresponds to parameter threshX-High
specified in SIB5 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.5}}.
Threshold used when re-selecting from a higher priority E-UTRAN
frequency, specified in {{units}}. The value of ({{param}} * 2)
yields the actual value. Corresponds to parameter threshX-Low
specified in SIB5 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.5}}.
Used to limit the allowed UE uplink transmission power on this
carrier frequency, specified in {{units}}. It is used to calculate
the parameter Pcompensation defined in
{{bibref|3GPP-TS.36.304|Section 5.2.3.2}}. Corresponds to parameter
p-Max specified in SIB5 in {{bibref|3GPP-TS.36.331|Section 6.3.1}}.
Scaling factor for TreselectionEUTRA for inter-frequency re-selection
to this frequency carrier in Medium-mobility state. The value of
{{param}} divided by 100 yields the actual SF value. Corresponds to
parameter t-ReselectionEUTRA-SF:sf-Medium specified in SIB5 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Scaling factor for TreselectionEUTRA for inter-frequency re-selection
to this frequency carrier in High-mobility state. The value of
{{param}} divided by 100 yields the actual SF value. Corresponds to
parameter t-ReselectionEUTRA-SF:sf-High specified in SIB5 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
This object contains parameters relating to the idle mode mobility
configuration for inter-RAT (Radio Access Technology) re-selection
scenario.
This object contains parameters relating to the idle mode mobility
configuration for inter-RAT (Radio Access Technology) re-selection,
specifically for re-selection to UTRA (UMTS) scenario (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.1.4}}).
{{list}} Each item is a cell re-selection timer for re-selection to a
UTRA frequency carrier, specified in seconds, with a numeric range
between 0 and 7 inclusive. In case there is more than one item in the
list, the first item contains the most preferred value. Corresponds
to parameter t-ReselectionUTRA specified in SIB6 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Scaling factor for TreselectionUTRA for inter-RAT re-selection to
UTRA in Medium-mobility state. The value of {{param}} divided by 100
yields the actual SF value. Corresponds to parameter
t-ReselectionUTRA-SF:sf-Medium specified in SIB6 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Scaling factor for TreselectionEUTRA for inter-frequency re-selection
to this frequency carrier in High-mobility state. The value of
{{param}} divided by 100 yields the actual SF value. Corresponds to
parameter t-ReselectionUTRA-SF:sf-High specified in SIB6 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.Mobility.IdleMode.IRAT.UTRA.UTRANFDDFreq.{i}.}}
table.
{{numentries}}
This object contains parameters relating to the channel frequncy
related information of UTRA (UMTS) system (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.1.5, 6.1.5.1.6}}).
Enables or disables this entry.
{{datatype|expand}}
Indicates the ARFCN of the frequency carrier. Corresponds to
parameter CarrierFreq in SIB6 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}.
{{list}} Each item is a required minimum received RSCP level on this
UTRA frequency carrier, specified in dBm, with a numeric range
between -60 and -13 inclusive. In case there is more than one item in
the list, the first item contains the most preferred value. The value
of ({{param}} * 2 + 1) yields the actual value. Corresponds to
parameter q-RxLevMin in SIB6 in {{bibref|3GPP-TS.36.331|Section
6.3.1}} and in {{bibref|3GPP-TS.25.304|Section 5.2.3.1.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a required minimum received Ec/Io level on this
UTRA FDD carrier, specified in dB, with a numeric range between -24
and 0 inclusive. In case there is more than one item in the list, the
first item contains the most preferred value. Corresponds to
parameter q-QualMin in SIB6 in {{bibref|3GPP-TS.36.331|Section
6.3.1}} and in {{bibref|3GPP-TS.25.304|Section 5.2.3.1.2}}. The
multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Absolute priority of this UTRA FDD frequency carrier, as used by the
inter-frequency cell re-selection procedure. Corresponds to parameter
CellReselectionPriority specified in SIB6 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}.
Threshold used when re-selecting towards a higher priority UTRA FDD
frequency, specified in {{units}}. The value of ({{param}} * 2)
yields the actual value. Corresponds to parameter threshX-High
specified in SIB6 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.5}}.
Threshold used when re-selecting towards a lower priority UTRA FDD
frequency, specified in {{units}}. The value of ({{param}} * 2)
yields the actual value. Corresponds to parameter threshX-Low
specified in SIB6 in {{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.5}}.
Used to limit the allowed UE uplink transmission power on this UTRA
FDD carrier frequency, specified in {{units}}. It is used to
calculate the parameter Pcompensation defined in
{{bibref|3GPP-TS.25.304|Section 5.2.3.1.2}}. Corresponds to parameter
p-MaxUTRA specified in SIB6 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}.
This object contains parameters relating to the idle mode mobility
configuration for inter-RAT (Radio Access Technology) re-selection,
specifically for re-selection to GERAN (GSM) scenario (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.1.6}}).
{{list}} Each item is a cell re-selection timer for re-selection to a
GERAN frequency carrier, specified in seconds, with a numeric range
between 0 and 7 inclusive. In case there is more than one item in the
list, the first item contains the most preferred value. Corresponds
to parameter t-ReselectionGERAN specified in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and to TreselectionGERA in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Scaling factor for TreselectionGERAN for inter-RAT re-selection to
GERAN in Medium-mobility state. The value of {{param}} divided by 100
yields the actual SF value. Corresponds to parameter
t-ReselectionGERAN-SF:sf-Medium specified in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Scaling factor for TreselectionGERAN for inter-RAT re-selection to
GERAN in High-mobility state. The value of {{param}} divided by 100
yields the actual SF value. Corresponds to parameter
t-ReselectionGERAN-SF:sf-High specified in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.Mobility.IdleMode.IRAT.GERAN.GERANFreqGroup.{i}.}}
table.
{{numentries}}
This object contains parameters relating to the channel frequncy
related information of GERAN (GSM) system (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.1.7}}).
Enables or disables this entry.
{{datatype|expand}}
Indicates how to interpret the BCCH ARFCN. {{enum}}
ARFCN of this cell.
{{list}} Each item is a required minimum received RSSI level on this
GERAN frequency carrier for re-selection to this UTRA FDD carrier,
specified in dBm, with a numeric range between 0 and 63 inclusive. In
case there is more than one item in the list, the first item contains
the most preferred value. The value of ({{param}} * 2 - 115) yields
the actual value. Corresponds to parameter q-rxLevMin in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and to RXLEV_ACCESS_MIN in
{{bibref|3GPP-TS.45.008}}. The multiplicity of the {{param}} values
can also be expressed by defining a range using ".." (two periods)
between two values. In this case, the combination of two values
defines the lower-bound and upper-bound of the range inclusive. If
this notation is used, then the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Absolute priority of this GERAN frequency group, as used by the
inter-frequency cell re-selection procedure. Corresponds to parameter
CellReselectionPriority specified in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}.
Threshold used when re-selecting towards a higher priority GERAN
frequency group than current serving E-UTRA frequency, specified in
{{units}}. The value of ({{param}} * 2) yields the actual value.
Corresponds to parameter threshX-High specified in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.5}}.
Threshold used when re-selecting towards a lower priority GERAN
frequency group than current serving E-UTRA frequency, specified in
{{units}} dB. The value of ({{param}} * 2) yields the actual value.
Corresponds to parameter threshX-Low specified in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.5}}.
This object contains parameters relating to the idle mode mobility
configuration for inter-RAT (Radio Access Technology) re-selection,
specifically for re-selection to CDMA2000 system scenario (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.1.8}}).
{{list}} Each item is a CDMA2000 parameter affecting the search for
neighbouring pilots, with a numeric range between 0 and 15 inclusive.
In case there is more than one item in the list, the first item
contains the most preferred value. Corresponds to parameter
searchWindowSize in SIB8 in {{bibref|3GPP-TS.36.331|Section 6.3.1}}
and in {{bibref|3GPP2-C.S0005-A|Table 2.6.6.2.1-1}} and
{{bibref|3GPP2-C.S0024-A|Table 8.7.6.2-4}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a cell re-selection timer for a CDMA2000 band,
specified in seconds, with a numeric range between 0 and 7 inclusive.
In case there is more than one item in the list, the first item
contains the most preferred value. Corresponds to parameter
t-ReselectionCDMA2000 specified in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and to TreselectionCDMA_HRPD
or TreselectionCDMA_1xRTT in {{bibref|3GPP-TS.36.304|Section
5.2.4.7}}. The multiplicity of the {{param}} values can also be
expressed by defining a range using ".." (two periods) between two
values. In this case, the combination of two values defines the
lower-bound and upper-bound of the range inclusive. If this notation
is used, then the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Scaling factor for TReselectionCDMA2000 for inter-RAT re-selection to
CDMA2000 in Medium-mobility state. The value of {{param}} divided by
100 yields the actual SF value. Corresponds to parameter
t-ReselectionCDMA2000-SF:sf-Medium specified in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
Scaling factor for TReselectionCDMA2000 for inter-RAT re-selection to
CDMA2000 in High-mobility state. The value of {{param}} divided by
100 yields the actual SF value. Corresponds to parameter
t-ReselectionCDMA2000-SF:sf-High specified in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.3}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.Mobility.IdleMode.IRAT.CDMA2000.CDMA2000Band.{i}.}}
table.
{{numentries}}
This object contains parameters relating to the channel frequncy
related information of CDMA2000 system (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.1.8}}).
Enables or disables this entry.
{{datatype|expand}}
Defines the CDMA2000 band in which the CDMA2000 carrier frequency can
be found, specified in {{units}}. BandClass is defined in 3GPP2
C.S0057-B Table 1.5-1. Corresponds to parameter bandClass specified
in SIB8 in {{bibref|3GPP-TS.36.331|Section 6.3.1}}.
Absolute priority of this CDMA2000 band used by the inter-frequency
cell re-selection procedure. Corresponds to parameter
CellReselectionPriority specified in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.7}}.
Threshold used when re-selecting towards a higher priority CDMA2000
band than current serving E-UTRA frequency, specified in {{units}}.
The value of ({{param}} * 2) yields the actual value. Corresponds to
parameter threshX-High specified in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.5}}.
Threshold used when re-selecting towards a lower priority CDMA2000
band than current serving E-UTRA frequency, specified in {{units}}.
The value of ({{param}} * 2) yields the actual value. Corresponds to
parameter threshX-Low specified in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}} and in
{{bibref|3GPP-TS.36.304|Section 5.2.4.5}}.
This object contains parameters relating to the UE's mobility while it
is in connected mode (handover). Parameters under this object
determines the content in the SIB (System Information Block) that is
broadcast by LTE .
This object contains parameters relating to the connected mode mobility
(handover) configuration within LTE system (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.2.1}}).
{{list}} Each item is a filtering coefficient used for RSRP
measurements, with a numeric range between 0 and 19 inclusive. For
values greater than 9, only odd values are valid. If the value is
other than these, the CPE MUST reject the value. In case there is
more than one item in the list, the first item contains the most
preferred value. Corresponds to filterCoefficientRSRP parameter
specified in QuantityConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a filtering coefficient used for RSRQ
measurements, with a numeric range between 0 and 19 inclusive. For
values greater than 9, only odd values are valid. If the value is
other than these, the CPE MUST reject the value. In case there is
more than one item in the list, the first item contains the most
preferred value. Corresponds to filterCoefficientRSRQ parameter
specified in QuantityConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Threshold to be used in EUTRA measurement report triggering condition
for event A1. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRP|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133|Table 9.1.4-1}}. Corresponds to parameter
a1-Threshold:threshold-RSRP specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold to be used in EUTRA measurement report triggering condition
for event A1. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRQ|TriggerQuantity}}. Mapping to actual values is specified
in 3GPP TS 36.133}} table 9.1.7-1. Corresponds to parameter
a1-Threshold:threshold-RSRQ specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold to be used in EUTRA measurement report triggering condition
for event A2. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRP|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133|Table 9.1.4-1}}. Corresponds to parameter
a2-Threshold:threshold-RSRP specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold to be used in EUTRA measurement report triggering condition
for event A2. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRQ|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133|Table 9.1.7-1}}. Corresponds to parameter
a2-Threshold:threshold-RSRQ specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
{{list}} Each item is an offset to be used in evaluation of EUTRA
measurement report triggering condition for event A3, with a numeric
range between -30 and 30 inclusive. In case there is more than one
item in the list, the first item contains the most preferred value.
Mapping to actual values is specified in {{bibref|3GPP-TS.36.133}}.
Corresponds to parameter a3-Offset specified in ReportConfigEUTRA IE
in {{bibref|3GPP-TS.36.331|Section 6.3.5}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Indicates whether or not the UE shall initiate the measurement
reporting procedure when the leaving condition is met for event A3
for a cell in cellsTriggeredList, as specified in
{{bibref|3GPP-TS.36.331|Section 5.5.4.1 and Section 6.3.5}}.
Threshold to be used in EUTRA measurement report triggering condition
for event A4. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRP|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133}}. Corresponds to parameter
a4-Threshold:threshold-RSRP specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold to be used in EUTRA measurement report triggering condition
for event A4. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRQ|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133}}. Corresponds to parameter
a4-Threshold:threshold-RSRQ specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold1 to be used in EUTRA measurement report triggering
condition for event A5. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRP|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133}}. Corresponds to parameter
a5-Threshold1:threshold-RSRP specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold1 to be used in EUTRA measurement report triggering
condition for event A5. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRQ|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133}}. Corresponds to parameter
a5-Threshold1:threshold-RSRQ specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold2 to be used in EUTRA measurement report triggering
condition for event A5. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRP|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133}}. Corresponds to parameter
a5-Threshold2:threshold-RSRP specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold2 to be used in EUTRA measurement report triggering
condition for event A5. Valid only if {{param|TriggerQuantity}} is
{{enum|RSRQ|TriggerQuantity}}. Mapping to actual values is specified
in {{bibref|3GPP-TS.36.133}}. Corresponds to parameter
a5-Threshold2:threshold-RSRQ specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
{{list}} Each item is a hysteresis value applied to entry and leave
condition of a report triggering event, with a numeric range between
0 and 30 inclusive. In case there is more than one item in the list,
the first item contains the most preferred value. Corresponds to
parameter hysteresis specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}. The multiplicity of the
{{param}} values can also be expressed by defining a range using ".."
(two periods) between two values. In this case, the combination of
two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a time period during which measurement report
triggering condition needs to be met in order to trigger a
measurement report, specified in milliseconds. In case there is more
than one item in the list, the first item contains the most preferred
value. Corresponds to parameter timeToTrigger specified in
ReportConfigEUTRA IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}. If
supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Quantities used to evaluate a measurement report triggering
condition. Corresponds to parameter triggerQuantity specified in
ReportConfigEUTRA IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Measrument quantities to be included in the measurement report.
Corresponds to parameter reportQuantity specified in
ReportConfigEUTRA IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}. The
value {{enum|Both}} specifies that both the RSRP and RSRQ quantities
are to be included in the measurement report.
Maximum number of cells that can be included in a measurement report.
Corresponds to parameter maxReportCells specified in
ReportConfigEUTRA IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Interval between successive measurement reports, specified in
{{units}}. Corresponds to parameter reportInterval specified in
ReportConfigEUTRA IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Number of times a measurement report is sent. Corresponds to
parameter reportAmount specified in ReportConfigEUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}. Value of 0 indicates
"infinity."
This object contains parameters relating to the connected mode mobility
(handover) configuration that is common to all inter-RAT handover
scenarios (UTRA (UMTS), GERAN (GSM) and CDMA2000) (see
{{bibref|3GPP-TS.32.592|Section 6.1.5.2.2}}).
{{list}} Each item is a UTRA-specific offset to be applied when
evaluating triggering conditions for measurement reporting in
connected mode, with a numeric range between -15 and 15 inclusive. In
case there is more than one item in the list, the first item contains
the most preferred value. Corresponds to parameter offsetFreq
included in the IE MeasObjectUTRA specified in
{{bibref|3GPP-TS.36.331}}. The multiplicity of the {{param}} values
can also be expressed by defining a range using ".." (two periods)
between two values. In this case, the combination of two values
defines the lower-bound and upper-bound of the range inclusive. If
this notation is used, then the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a filtering coefficient used for UTRA
measurements, with a numeric range between 0 and 19 inclusive. For
values greater than 9, only odd values are valid. If the value is
other than these, the CPE MUST reject the value. In case there is
more than one item in the list, the first item contains the most
preferred value. Corresponds to filterCoefficient parameter specified
in QuantityConfigUTRA IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
The multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Measurement quantity used for UTRA measurements. Corresponds to
measQuantityUTRA-FDD parameter specified in QuantityConfigUTRA IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
RSCP threshold to be used in UTRA measurement report triggering
condition for event B1. Mapping to actual {{units}} values is
specified in 3GPP TS 25.133}}. Corresponds to parameter
b1-ThresholdUTRA:utra-RSCP specified in ReportConfigInterRAT IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
EcNo threshold to be used in UTRA measurement report triggering
condition for event B1. Mapping to actual {{units}} values is
specified in 3GPP TS 25.133}}. Corresponds to parameter
b1-ThresholdUTRA:utra-EcNo specified in ReportConfigInterRAT IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
{{list}} Each item is a GERAN-specific offset to be applied when
evaluating triggering conditions for measurement reporting in
connected mode, with a numeric range between -15 and 15 inclusive. In
case there is more than one item in the list, the first item contains
the most preferred value. Corresponds to parameter offsetFreq
included in the IE MeasObjectGERAN specified in
{{bibref|3GPP-TS.36.331}}. The multiplicity of the {{param}} values
can also be expressed by defining a range using ".." (two periods)
between two values. In this case, the combination of two values
defines the lower-bound and upper-bound of the range inclusive. If
this notation is used, then the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a filtering coefficient used for GERAN
measurements, with a numeric range between 0 and 19 inclusive. For
values greater than 9, only odd values are valid. If the value is
other than these, the CPE MUST reject the value. In case there is
more than one item in the list, the first item contains the most
preferred value. Corresponds to filterCoefficient parameter specified
in QuantityConfigGERAN IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
The multiplicity of the {{param}} values can also be expressed by
defining a range using ".." (two periods) between two values. In this
case, the combination of two values defines the lower-bound and
upper-bound of the range inclusive. If this notation is used, then
the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Threshold to be used in GERAN measurement report triggering condition
for event B1. Mapping to actual {{units}} values is specified in 3GPP
TS 45.008}}. Corresponds to parameter b1-ThresholdGERAN specified in
ReportConfigInterRAT IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
{{list}} Each item is a CDMA2000-specific offset to be applied when
evaluating triggering conditions for measurement reporting in
connected mode, with a numeric range between -15 and 15 inclusive. In
case there is more than one item in the list, the first item contains
the most preferred value. Corresponds to parameter offsetFreq
included in the IE MeasObjectCDMA2000 specified in
{{bibref|3GPP-TS.36.331}}. The multiplicity of the {{param}} values
can also be expressed by defining a range using ".." (two periods)
between two values. In this case, the combination of two values
defines the lower-bound and upper-bound of the range inclusive. If
this notation is used, then the list contains at least 2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Measurement quantity used for CDMA2000 measurements. Corresponds to
measQuantityCDMA2000 parameter specified in QuantityConfigCDMA2000 IE
in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold to be used in CDMA2000 measurement report triggering
condition for event B1. Mapping to actual {{units}} values is
specified in {{bibref|3GPP-TS.45.008}}. Corresponds to parameter
b1-ThresholdCDMA2000 specified in ReportConfigInterRAT IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
RSCP threshold to be used in UTRA measurement report triggering
condition for event B2. Mapping to actual {{units}} values is
specified in {{bibref|3GPP-TS.25.133}}. Corresponds to parameter
b2-Threshold2UTRA:utra-RSCP specified in ReportConfigInterRAT IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
EcNo threshold to be used in UTRA measurement report triggering
condition for event B2. Mapping to actual {{units}} values is
specified in 3GPP TS 25.133}}. Corresponds to parameter
b2-Threshold2UTRA:utra-EcNo specified in ReportConfigInterRAT IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold to be used in GERAN measurement report triggering condition
for event B2. Mapping to actual {{units}} values is specified in 3GPP
TS 45.008}}. Corresponds to parameter b2-Threshold2GERAN specified in
ReportConfigInterRAT IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Threshold to be used in CDMA2000 measurement report triggering
condition for event B2. Mapping to actual {{units}} values is
specified in 3GPP TS 45.008}}. Corresponds to parameter
b2-Threshold2CDMA2000 specified in ReportConfigInterRAT IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}.
{{list}} Each item is a hysteresis value applied to entry and leave
condition of an IRAT report triggering event, with a numeric range
between 0 and 30 inclusive. In case there is more than one item in
the list, the first item contains the most preferred value.
Corresponds to parameter hysteresis specified in ReportConfigInterRAT
IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}. The multiplicity of
the {{param}} values can also be expressed by defining a range using
".." (two periods) between two values. In this case, the combination
of two values defines the lower-bound and upper-bound of the range
inclusive. If this notation is used, then the list contains at least
2 items:
"<preferred-value>,<lower-bound>..<upper-bound>".
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
{{list}} Each item is a time period during which IRAT measurement
report triggering condition needs to be met in order to trigger IRAT
measurement report, specified in milliseconds. In case there is more
than one item in the list, the first item contains the most preferred
value.. Corresponds to parameter timeToTrigger specified in
ReportConfigInterRAT IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
If supports self-configuration capability for {{param}} and more than
one item is configured, then is expected to select one from the list
and overwrite this parameter containing only the one selected. If
does not support self-configuration capability for {{param}} and more
than one item is configured, then accepts the first value and ignore
the rest. If only one item is configured regardless of the
self-configuration capability of , accepts the value as an explicit
configuration by the ACS.
Maximum number of IRAT cells that can be included in a measurement
report. Corresponds to parameter maxReportCells specified in
ReportConfigInterRAT IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Interval between successive IRAT measurement reports, specified in
{{units}}. Corresponds to parameter reportInterval specified in
ReportConfigInterRAT IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
Number of times an IRAT measurement report is sent. Corresponds to
parameter reportAmount specified in ReportConfigInterRAT IE in
{{bibref|3GPP-TS.36.331|Section 6.3.5}}. Value of 0 indicates
"infinity."
This object contains parameters relating to the neighbor list.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.NeighborList.LTECell.{i}.}} table.
{{numentries}}
Table containing the E-UTRA (i.e. intra-RAT) cell list provided by the
ACS. The table contents MAY be added/deleted/modified during operation,
in which case these changes shall be reflected in the broadcast
information as soon as possible.
Enables or disables this entry.
{{datatype|expand}}
Indicates whether this instance of the neighbor shall be included or
excluded in the FAP's NL configuration.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Cell Identity. {{bibref|3GPP-TS.36.331|Section 6.3.4}}. Combination
of {{param|PLMNID}} and {{param}} constitutes the Cell Global ID
(CGI).
Indicates the ARFCN of this carrier frequency. Corresponds to
parameter dl-CarrierFreq in SIB5 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}, and and parameter NDL in {{bibref|3GPP-TS.36.101|Section
5.7.3}}. If the value of {{param}} is the same with the one currently
being used by the, then it implies that this neighbor cell is an
intra-frequency cell; otherwise, it is an inter-frequency cell.
Physical cell ID, as specified in {{bibref|3GPP-TS.36.211|Section
6.11}}.
Indicate a cell-specific offset applicable to a specific neighbouring
cell. It is used for evaluating the cell as a candidate for cell
re-selection in idle mode. Corresponds to parameter q-OffsetCell
broadcast in SIB4 for intra-frequency cells and in SIB5 for
inter-frequency cells, specified in {{bibref|3GPP-TS.36.331|Section
6.3.1}}. For the value less than or equal to -8, and bigger than or
equal to 8, only even numbers are valid. If the value is other than
these, the CPE MUST reject the value.
Cell individual offset applicable to a specific neighbouring cell. It
is used for evaluating triggering conditions for measurement
reporting in connected mode. Specified by cellIndividualOffset in
MeasObjectEUTRA IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}. For
the value less than or equal to -8, and bigger than or equal to 8,
only even numbers are valid. If the value is other than these, the
CPE MUST reject the value.
The downlink reference-signal transmit power, specified in {{units}}.
Defined as the linear average over the power contributions (in W) of
all resource elements that carry cell-specific reference signals
within the operating system bandwidth. Corresponds to parameter
referenceSignalPower in SIB4 as a part of PDSCH-Config IE in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.
Indicates whether this neighbor cell is allowed for UEs as handover
target or not. If {{true}}, handover is prohibited towards this cell.
If {{false}}, handover is allowed toward this cell. The {{param}}
parameter allows this cell to be prohibited as a handover target,
while still allowing this cell to be included in the BCCH SIB4 or 5.
The inter-RAT cell lists separated by technology.
{{bibref|3GPP-TS.36.331|Section 6.3.1 (SIB6, 7, 8)}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.NeighborList.InterRATCell.UMTS.{i}.}}
table. There can be maximum of 16 UTRAN (UMTS) neighbor cells, as
specified by carrierFreqListUTRA-FDD in SIB6 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.NeighborList.InterRATCell.GSM.{i}.}}
table. There can be maximum of 16 GERAN (GSM) neighbor cells, as
specified by carrierFreqsInfoList in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.NeighborList.InterRATCell.CDMA2000.{i}.}}
table. There can be maximum of 32 bandclasses. In each bandclass,
there can be maximum of 16 CDMA2000 carrier frequencies. In each
carrier, there can be maximum of 16 CDMA2000 neighbor cells (PN
offset). It is specified by neighCellList in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
{{numentries}}
{{numentries}}
{{numentries}}
Table containing the inter-RAT cell list for UTRA (UMTS) provided by
the ACS. The table contents MAY be added/deleted/modified during
operation, in which case these changes shall be reflected in the
broadcast information as soon as possible.
Enables or disables this entry.
{{datatype|expand}}
Indicates whether this instance of the neighbor shall be included or
excluded in the FAP's NL configuration.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
RNC-ID of an intra-RAT UMTS neighbor cell. It uniquely identifies an
RNC within a PLMN. Normally, RNC-ID consists of 12 bits (i.e. a range
of [0:4095]). However, if the value is larger than 4095, then
Extended RNC-ID (range of [4096:65535]) is used in RANAP. The RNC-ID
and Extended RNC-ID are combined into a single parameter here as
there is no explicit need to have them separated.
{{bibref|3GPP-TS.25.413|Section 9.2.1.39}}
Cell Identifier (C-id) that identifies a cell within an RNS. This
Cell Identifier together with the controlling RNC (RNC-ID)
constitutes the UTRAN Cell ID (UC-ID) and is used to identify a cell
uniquely within UTRAN. C-ID is either 12-bit or 16-bit value.
{{bibref|3GPP-TS.25.401|Section 6.1.5}}.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
Routing Area Code (RAC). The concatenation of PLMN ID (MCC+MNC), LAC,
and RAC uniquely identifies the Routing Area ID (RAI).
{{bibref|3GPP-TS.23.003|Section 4.2}} {{bibref|3GPP-TS.25.413|Section
9.2.3.7}}
UTRAN Registration Area (URA) {{bibref|3GPP-TS.23.401}}. Indicates to
the UE which {{param}} it shall use in case of overlapping URAs.
{{bibref|3GPP-TS.25.331|Section 10.3.2.6}}
The UL UTRA Absolute Radio Frequency Channel Number (UARFCN) in an
FDD mode cell. {{bibref|3GPP-TS.25.433}}
The DL UTRA Absolute Radio Frequency Channel Number (UARFCN) in an
FDD mode cell. {{bibref|3GPP-TS.25.433}}
Primary CPICH scrambling code.
Primary CPICH Tx power in {{units}}. Actual values of the power are
-10.0 {{units}} to 50.0 {{units}} in steps of 0.1 dB. The value of
{{param}} divided by 10 yields the actual value of the power.
{{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.433|Section 2.2.33}}
Table containing the inter-RAT cell list for GERAN (GSM) provided by
the ACS. The table contents MAY be added/deleted/modified during
operation, in which case these changes shall be reflected in the
broadcast information as soon as possible.
Enables or disables this entry.
{{datatype|expand}}
Indicates whether this instance of the neighbor shall be included or
excluded in the FAP's NL configuration.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
BSIC of the cell per {{bibref|3GPP-TS.23.003}}, consisting of:
:Bit 7:6 - not used ("00")
:Bit 5:3 - NCC (PLMN Color Code)
:Bit 2:0 - BCC (BS color code) For example, if NCC is 7 and BCC is 2
you would have 00111010 (binary) or 0x3A (hex), and the value of
this parameter would be 58.
Cell ID of the cell per {{bibref|3GPP-TS.23.003|Section 4.3.1}}.
Indicates how to interpret the BCCH ARFCN. {{enum}}
ARFCN of this cell.
Table containing the inter-RAT cell list for CDMA2000 provided by the
ACS. The table contents MAY be added/deleted/modified during operation,
in which case these changes shall be reflected in the broadcast
information as soon as possible.
Enables or disables this entry.
{{datatype|expand}}
Indicates whether this instance of the neighbor shall be included or
excluded in the FAP's NL configuration.
Defines the CDMA2000 band in which the CDMA2000 frequency carrier can
be found, specified in bandclass number. BandClass is defined in
{{bibref|3GPP2-C.S0057-B}} Table 1.5-1. Corresponds to parameter
bandClass specified in SIB8 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}.
Defines the CDMA2000 frequency carrier within a CDMA2000 band, as
specified by ARFCN-ValueCDMA2000 in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}, and
{{bibref|3GPP2-C.S0002-A}}.
Defines the PN offset that represents the "Physical cell identity" in
CDMA2000 system, as specified by PhysCellIdCDMA2000 in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
Indicates the type of the cell. This parameter determines the length
of the CID parameter.
Defines the global cell identity of the cell. For a 1xRTT cell, the
cell identity is a binary string 47 bits long. For a HRPD cell, the
cell identity is a binary string 128 bits long. The value of
{{param}} parameter is interpreted as 128-bit long unsigned integer.
If {{param|Type}} is {{enum|1xRTT|Type}}, the first 47 bits (6 octet)
is used and the rest of this {{param}} parameter MUST be ignored by
the CPE. If {{param|Type}} is {{enum|HRPD|Type}}, the entire 16 octet
is used as {{param}}. Corresponds to IE CellGlobalIdCDMA2000
specified in {{bibref|3GPP-TS.36.331|Section 6.3.4}}.
This object contains parameters relating to the neighbor list used by
the FAP based on its self-configuration capability and
{{object|.CellConfig.LTE.RAN.NeighborList.}} configuration of adding
and excluding cells.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.NeighborListInUse.LTECell.{i}.}} table.
{{numentries}}
Table containing the LTE EUTRA (i.e. intra-RAT) cell list.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Cell Identity. {{bibref|3GPP-TS.36.331|Section 6.3.4}}. Combination
of {{param|PLMNID}} and {{param}} constitutes the Cell Global ID
(CGI).
Indicates the ARFCN of this carrier frequency. Corresponds to
parameter dl-CarrierFreq in SIB5 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}, and and parameter NDL in {{bibref|3GPP-TS.36.101|Section
5.7.3}}. If the value of {{param}} is the same with the one currently
being used by the, then it implies that this neighbor cell is an
intra-frequency cell; otherwise, it is an inter-frequency cell.
Physical cell ID, as specified in {{bibref|3GPP-TS.36.211|Section
6.11}}.
Indicate a cell-specific offset applicable to a specific neighbouring
cell. It is used for evaluating the cell as a candidate for cell
re-selection in idle mode. Corresponds to parameter q-OffsetCell
broadcast in SIB4 for intra-frequency cells and in SIB5 for
inter-frequency cells, specified in {{bibref|3GPP-TS.36.331|Section
6.3.1}}.
Cell individual offset applicable to a specific neighbouring cell. It
is used for evaluating triggering conditions for measurement
reporting in connected mode. Specified by cellIndividualOffset in
MeasObjectEUTRA IE in {{bibref|3GPP-TS.36.331|Section 6.3.5}}.
The downlink reference-signal transmit power, specified in {{units}}.
Defined as the linear average over the power contributions (in W) of
all resource elements that carry cell-specific reference signals
within the operating system bandwidth. Corresponds to parameter
referenceSignalPower in SIB4 as a part of PDSCH-Config IE in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.
Indicates whether this neighbor cell is allowed for UEs as handover
target or not. If {{true}}, handover is prohibited towards this cell.
If {{false}}, handover is allowed toward this cell. The {{param}}
parameter allows this cell to be prohibited as a handover target,
while still allowing this cell to be included in the BCCH SIB4 or 5.
Table containing the inter-RAT cell lists separated by technology.
{{bibref|3GPP-TS.36.331|Section 6.3.1 (SIB6, 7, 8)}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.NeighborListInUse.InterRATCell.UMTS.{i}.}}
table. There can be maximum of 16 UTRAN (UMTS) neighbor cells, as
specified by carrierFreqListUTRA-FDD in SIB6 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.NeighborListInUse.InterRATCell.GSM.{i}.}}
table. There can be maximum of 16 GERAN (GSM) neighbor cells, as
specified by carrierFreqsInfoList in SIB7 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
The maximum number of entries in the
{{object|.CellConfig.LTE.RAN.NeighborListInUse.InterRATCell.CDMA2000.{i}.}}
table. There can be maximum of 32 banclasses. In each bandclass,
there can be maximum of 16 CDMA2000 carrier frequencies. In each
carrier, there can be maximum of 16 CDMA2000 neighbor cells (PN
offset). It is specified by neighCellList in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
{{numentries}}
{{numentries}}
{{numentries}}
Table containing the inter-RAT cell list for UTRA (UMTS) cell.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
RNC-ID of an intra-RAT UMTS neighbor cell. It uniquely identifies an
RNC within a PLMN. Normally, RNC-ID consists of 12 bits (i.e. a range
of [0:4095]). However, if the value is larger than 4095, then
Extended RNC-ID (range of [4096:65535]) is used in RANAP. The RNC-ID
and Extended RNC-ID are combined into a single parameter here as
there is no explicit need to have them separated.
{{bibref|3GPP-TS.25.413|Section 9.2.1.39}}
Cell Identifier (C-id) that identifies a cell within an RNS. This
Cell Identifier together with the controlling RNC (RNC-ID)
constitutes the UTRAN Cell ID (UC-ID) and is used to identify a cell
uniquely within UTRAN. C-ID is either 12-bit or 16-bit value.
{{bibref|3GPP-TS.25.401|Section 6.1.5}}.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
Routing Area Code (RAC). The concatenation of PLMN ID (MCC+MNC), LAC,
and RAC uniquely identifies the Routing Area ID (RAI).
{{bibref|3GPP-TS.23.003|Section 4.2}} {{bibref|3GPP-TS.25.413|Section
9.2.3.7}}
UTRAN Registration Area (URA) {{bibref|3GPP-TS.23.401}}. Indicates to
the UE which {{param}} it shall use in case of overlapping URAs.
{{bibref|3GPP-TS.25.331|Section 10.3.2.6}}
The UL UTRA Absolute Radio Frequency Channel Number (UARFCN) in an
FDD mode cell. {{bibref|3GPP-TS.25.433}}
The DL UTRA Absolute Radio Frequency Channel Number (UARFCN) in an
FDD mode cell. {{bibref|3GPP-TS.25.433}}
Primary CPICH scrambling code.
Primary CPICH Tx power in {{units}}. Actual values of the power are
-10.0 {{units}} to 50.0 {{units}} in steps of 0.1 dB. The value of
{{param}} divided by 10 yields the actual value of the power.
{{bibref|3GPP-TS.32.642|Section 6.3.11}}
{{bibref|3GPP-TS.25.433|Section 2.2.33}}
Table containing the inter-RAT cell list for GERAN (GSM) cell.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Location Area Code (LAC). The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the Location Area ID (LAI).
{{bibref|3GPP-TS.23.003|Section 4.1}} {{bibref|3GPP-TS.25.413|Section
9.2.3.6}}
BSIC of the cell per {{bibref|3GPP-TS.23.003}}, consisting of:
:Bit 7:6 - not used ("00")
:Bit 5:3 - NCC (PLMN Color Code)
:Bit 2:0 - BCC (BS color code) For example, if NCC is 7 and BCC is 2
you would have 00111010 (binary) or 0x3A (hex), and the value of
this parameter would be 58.
Cell ID of the cell per {{bibref|3GPP-TS.23.003|Section 4.3.1}}.
Indicates how to interpret the BCCH ARFCN. {{enum}}
ARFCN of this cell.
Table containing the inter-RAT cell list for CDMA2000 cell.
Defines the CDMA2000 band in which the CDMA2000 frequency carrier can
be found, specified in bandclass number. BandClass is defined in
{{bibref|3GPP2-C.S0057-B|Table 1.5-1}}. Corresponds to parameter
bandClass specified in SIB8 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}.
Defines the CDMA2000 frequency carrier within a CDMA2000 band, as
specified by ARFCN-ValueCDMA2000 in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}, and
{{bibref|3GPP2-C.S0002-A}}.
Defines the PN offset that represents the "Physical cell identity" in
CDMA2000 system, as specified by PhysCellIdCDMA2000 in SIB8 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}.
Indicates the type of the cell. This parameter determines the length
of the CID parameter.
Defines the global cell identity of the cell. For a 1xRTT cell, the
cell identity is a binary string 47 bits long. For a HRPD cell, the
cell identity is a binary string 128 bits long. The value of
{{param}} parameter is interpreted as 128-bit long unsigned integer.
If {{param|Type}} is {{enum|1xRTT|Type}}, the first 47 bits (6 octet)
is used and the rest of this {{param}} parameter MUST be ignored by
the CPE. If {{param|Type}} is {{enum|HRPD|Type}}, the entire 16 octet
is used as {{param}}. Corresponds to IE CellGlobalIdCDMA2000
specified in {{bibref|3GPP-TS.36.331|Section 6.3.4}}.
This object contains parameters relating to configuring the CDMA2000
FAP.
This is the reference to the IPsec tunnel instance used by the
CDMA2000 FAP. For all root data models, which use the tunnel
definition provided in {{bibref|TR-262}} (InternetGatewayDevice:1
{{bibref|TR-098}} and Device:1 {{bibref|TR-181i1}}) the {{param}}
MUST point to a row in the 'FAP.Tunnel.IKESA.{i}.' table, defined in
{{bibref|TR-262}}. If the root data model used is Device:2
{{bibref|TR-181i2}} than the {{param}} MUST point to IPsec tunnel
instance defined in {{bibref|TR-181i2}}. If the referenced object is
deleted, the parameter value MUST be set to an empty string. In case
of a multiple-radio-technology FAP product, each radio technology can
have its own tunnels or share common tunnels. In the former case,
{{param}} can contain a unique instance number. In the latter case,
{{param}} under all radio technologies can have the same instance
number.
This object contains parameters relating to configuring the CDMA2000 1x
FAP.
{{numentries}}
Maximum number of entries in the
{{object|.CellConfig.CDMA2000.OneX.BatchPCFPDSN.{i}.}} table.
{{numentries}}
This object contains parameters relating to RAN configuring the
CDMA2000 1x FAP.
SID for 1x. See {{bibref|3GPP2-C.S0005}}.
NID for 1x . See {{bibref|3GPP2-C.S0005}}.
packet Zone ID for 1x packet calls
Base station ID (needed in SPM). This is also the CellID. See
{{bibref|3GPP2-C.S0005}}.
Maximum number of entries avaiable in
{{object|.CellConfig.CDMA2000.OneX.RAN.NeighborList.{i}.}}.
{{numentries}}
This object contains parameters relating to RF configuration of the
FAP.
{{list}} Each item is a pair of 2-digit Band class number (as defined
in {{bibref|3GPP2-C.S0057}}) followed by 4-digit FL Radio Frequency
Channel Number (RFCN). Self-configuration for RFCN is controlled by
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.RFCNFLSelfConfigEnable}}.
If the FAP's self-configuration capability for RFCN is available and
enabled, this parameter MAY contain more than one item and the FAP is
expected to select one from the list for RFCNFLInUse. If the
self-configuration capability is not available or not enabled, then
this parameter SHOULD contain only a single item. An example value is
"010001, 030500". If multiple items are specified, they are done in
the order of preference.
The FL Band being used by the FAP. Self-configuration for Band and
RFCN is controlled by
{{param|.Capabilities.CDMA2000.OneX.SelfConfig.RFCNFLConfig}} from an
availability perspective and
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.RFCNFLSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in RFCNFL. If the
self-configuration capability is not available or not enabled, then
this parameter contains the first band class value in RFCNFL.
The FL RFCN being used by the FAP. Self-configuration for RFCN is
controlled by
{{param|.Capabilities.CDMA2000.OneX.SelfConfig.RFCNFLConfig}} from an
availability perspective and
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.RFCNFLSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in RFCNFL. If the
self-configuration capability is not available or not enabled, then
this parameter contains the first RFCN value in RFCNFL.
{{list}} Each item is a pilot PN offset in units of 64 PN chips.
Self-configuration for pilot PN is controlled by
{{param|.Capabilities.CDMA2000.OneX.SelfConfig.PilotPNConfig}} from
an availability perspective and
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.PilotPNSelfConfigEnable}}
from an enabled perspective. If the FAP's self-configuration
capability for Pilot PN Offset is available and enabled, this
parameter MAY contain more than one item and the FAP is expected to
select one from the list for PilotPNInUse. If the self-configuration
capability is not available or not enabled, then this parameter
SHOULD contain only a single item. The multiplicity of the PN offset
values can also be expressed by defining a range using ".." (two
periods) between two values. In this case, the combination of two
values defines the lower-bound and upper-bound of the range
inclusive. The order of the items has no significance.
The Pilot PN Offset being used by the FAP in {{units}}.
Self-configuration for Pilot PN Offset is controlled by
{{param|.Capabilities.CDMA2000.OneX.SelfConfig.PilotPNConfig}} from
an availability perspective and
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.PilotPNSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in PilotPN. If the
self-configuration capability is not available or not enabled, then
this parameter contains the first value in PilotPN.
Defines the maximum transmission power allowed on the FAP.
MaxFAPTxPower is expressed as a range of allowed maximum power levels
with ".." (two periods) between the upper and lower values, i.e.
"<Pmax_low>;..<Pmax_high>;". {{param}} identifies the
limits between which the FAP can self-configure its maximum transmit
power. Self-configuration for maximum transmission power is
controlled by
{{param|.Capabilities.CDMA2000.OneX.SelfConfig.MaxFAPTxPowerConfig}}
from an availability perspective and
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.MaxFAPTxPowerSelfConfigEnable}}
from an enabled perspective. <Pmax_low>; and <Pmax_high>;
are measured in dBm and have a range of -40.0 to 20.0 incremented by
0.1 dB.
The maximum transmission power measured in {{units}} currently used
by the FAP. Actual values of the maximum transmission power are -40.0
dBm to 20.0 dBm in steps of 0.1 dB. The value of {{param}} divided by
10 yields the actual value of the maximum transmission power.
Self-configuration for maximum transmission power is controlled by
{{param|.Capabilities.CDMA2000.OneX.SelfConfig.MaxFAPTxPowerConfig}}
from an availability perspective and
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.MaxFAPTxPowerSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the range provided in {{param|MaxFAPTxPower}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains a value selected by the ACS.
Percentage of Max Sector Power Used By Paging Channel (expressed in
{{units}}). For example, 93333 means 93.333% of the max sector power.
Percentage of Max Sector Power Used By Pilot Channel (expressed in
{{units}}). For example, 19950 means 19.95% of total.
Percentage of Max Sector Power Used By Sync Channel (expressed in
{{units}}). For example, 23458 means 23.4% of the max sector power.
This object contains parameters relating to self-configuration of the
MaxFAPTxPower of the FAP.
If self-configuration of RFCNFL is enabled, this value indicates the
total received signal strength margin to be applied to the entries in
RFCNFL when the FAP decides on the RFCNInUse in order to bias the
selection of the most preferred frequency.
Defines the target value measured in dB for the range of the FAP's FL
coverage, in terms of RF propagation loss. This value can be used by
the FAP's selfconfiguration algorithms to help derive transmit power
levels in the presence of co-channel and adjacent channel
interference.
{{param}} is expressed as a range of the minimum coverage path loss
and the maximum coverage path loss with ".." (two periods) between
the minimum and maximum values, i.e.,
"<FAPCoverageTarget_min>..<FAPCoverageTarget_max>". These
values can be used by the FAP's selfconfiguration algorithms to help
derive transmit power levels in the presence of co-channel and
adjacent channel interference. <FAPCoverageTarget_min> and
<FAPCoverageTarget_max> are measured in dB and have a range of
[50,150] incremented by 1 dB.
Defines the target value measured in dB for the range of the FAP's FL
Beacon coverage, in terms of RF propagation loss. This value can be
used by the FAP's selfconfiguration algorithms to help derive beacon
transmit power levels.
{{param}} is expressed as a range of the minimum coverage path loss
and the maximum coverage path loss with ".." (two periods) between
the minimum and maximum values, i.e.,
"<BeaconCoverageTarget_min>..<BeaconCoverageTarget_max>".
These values can be used by the FAP's selfconfiguration algorithms to
help derive transmit power levels for the beacon(s) in the presence
of co-channel and adjacent channel interference."
<BeaconCoverageTarget_min> and <BeaconCoverageTarget_max>
are measured in dB and have a range of [50,150] incremented by 1 dB.
The maximum strength of the received pilot energy per chip, Ec, to
total received spectral density, Io (signal and noise) desired for
FAP users at the edge of the FAP coverage target in units of
{{units}}. This value can be used by the FAP's self configuration
algorithms to help prevent aggressive transmit power level settings .
The maximum amount in dB by which the strength of the received pilot
energy per chip, Ec, to total received spectral density, Io (signal
and noise) for alien users can be degraded in the presence of FAP
interference at the edge of FAP coverage, in {{units}} units.
{{list}} Each item is a FL RFCN corresponding to a CDMA2000 carrier
that is adjacent to the RFCNFLInUse to be protected from adjacent
channel interference. If any of the items in the list are adjacent to
the FAP's own FL channel, the FAP MUST take the PilotStrength and
total received power spectral density (Io) measured on these channels
into account as part of its maximum transmit power selfconfiguration.
The RFCNs in the list can belong to any operator, allowing for
protection of the FAP operator's own macro layer as well as that of
other operators. The list should take into account the ability of the
FAP to self-configure its own FL RFCN and so SHOULD include any
channels (requiring protection) which can potentially be adjacent to
the RFCN selected by the FAP. For example, if only adjacent operator
protection is needed and the FAP has the ability to self-configure to
any channel owned by its operator, this list would be populated with
the RFCNs immediately above and below the range of channels owned by
the FAP operator. If an empty string then it indicates that there are
no channels adjacent to the FAP that require protection, or that
self-configuration of the FAP transmit power is not enabled.
Defines the maximum allowed coverage hole created on carriers listed
in RFCNFLToProtect by the FAP transmission, measured in {{units}}, in
terms of RF propagation loss such that the
{{param|MaxAllowablePilotStrengthDegradation}} is maintained outside
the {{param}} for MS on that {{param|RFCNFLToProtect}}. This value
can be used by the FAP's self configuration algorithms to help derive
transmit power levels.
AdjacentChannelInterferenceRatio value in {{units}} to be used when
determining the coverage hole created on adjacent channels due to
leakage.
The object used for configuring access parameter messages for 1x. See
{{bibref|3GPP2-C.S0005}}.
Nominal power correction factor used by the mobile in open loop power
adjustment. See {{bibref|3GPP2-C.S0005}}.
Initial power offset used by the mobile in open loop power
adjustment. See {{bibref|3GPP2-C.S0005}}.
Power step increment in successive access probes. See
{{bibref|3GPP2-C.S0005}}.
{{param}} should be zero for BC0 and BC1. For other band classes,
{{param}} is 1 if Mobile's correction factor is between -24dBm and
-9dBm. Otherwise {{param}} is zero. See {{bibref|3GPP2-C.S0005}}.
Enabling/disabling global authentication. See
{{bibref|3GPP2-C.S0005}}.
The period (in {{units}}) that the BSS updates the RAND value sent
via APM. Only 2 second multiples accepted.
Initial power offset for access. The base station shall set this
field to the correction factor to be used by mobile stations in the
open loop power estimate for the initial transmission on an Access
Channel, expressed as a two's complement value in units of {{units}}.
Power increment. The base station shall set this field to the value
by which mobile stations are to increase their transmit power between
successive access probes in an access probe sequence, in units of
{{units}}.
Number of access probes. The base station shall set this field to one
less than the maximum number of access probes mobile stations are to
transmit in a single access probe sequence.
Maximum Access Channel message capsule size. The base station shall
set this field to the value in the range 0 to 7. {{param}} is set to
three less than the maximum number of Access Channel frames in an
Access Channel message capsule.
Access Channel preamble length. The base station shall set this field
to one less than the number of Access Channel frames that mobile
stations are to transmit in each Access Channel preamble.
Persistence value for access probes sent by mobiles with Access
Overload calls values of 0 - 9. A value of 63 indicates such mobiles
are not allowed to send access probes.
Persistence value for access probes sent by mobiles with Access
Overload calls values of 10 (test Mobile). A value of 7 indicates
such mobiles are not allowed to send access probes.
Persistence value for access probes sent by mobiles with Access
Overload calls values of 11 (emergency Mobile). A value of 7
indicates such mobiles are not allowed to send access probes.
Persistence value for access probes sent by mobiles with Access
Overload calls values of 12. A value of 7 indicates such mobiles are
not allowed to send access probes.
Persistence value for access probes sent by mobiles with Access
Overload calls values of 13. A value of 7 indicates such mobiles are
not allowed to send access probes.
Persistence value for access probes sent by mobiles with Access
Overload calls values of 14. A value of 7 indicates such mobiles are
not allowed to send access probes.
Persistence value for access probes sent by mobiles with Access
Overload calls values of 15. A value of 7 indicates such mobiles are
not allowed to send access probes.
Persistence modifier for access channel attempts transmitting a
message.
Persistence modifier for registration message transmission.
Time randomization for access channel probes.
Access transmission timeout. Two less than the time the mobile has to
wait before determining that the probe is not received by the BSS. It
is in {{units}}.
One less than maximum number for randomized delay between successive
access probes in {{units}}.
One less than maximum number for randomized delay between successive
access sequences in {{units}}.
Maximum number of access probe sequences for an access request.
Maximum number of access probe sequences for an access response
The object used for configuring system parameter messages for 1x
registration zone number (refer to Section 2.6.5.1.5 of
{{bibref|3GPP2-C.S0005}})
Total number of zones the mobile shall retain for zone based
registration. See {{bibref|3GPP2-C.S0005}}.
timer value to be used by the mobile in the zone registration timer.
Refer to table 3.7.2.3.2.1-1 of the standard
{{bibref|3GPP2-C.S0005}}.
Registration period for timer based registration. Registration period
is calculated from the formula 2^(REG_PRD/4) x 0.08 seconds. Thus a
value of 59 corresponds to 1853.6 seconds (~ 1/2 hour). See
{{bibref|3GPP2-C.S0005}}.
Search window size to be used ny the mobile for active set and
candidate set. Refer to table 2.6.6.2.1-1 of
{{bibref|3GPP2-C.S0005}}. For example, 11 corresponds to 130 chips
Search window size to be used by the mobile for neighbor set. Refer
to table 2.6.6.2.1-1 of {{bibref|3GPP2-C.S0005}}. For example, 8
corresponds to 60 chips
Search window size to be used by the mobile for remaining set. Refer
to table 2.6.6.2.1-1 of {{bibref|3GPP2-C.S0005}}. For example, 8
corresponds to 60 chips
neighbor set maximum age beyond which the mobiles are supposed to
drop a neighbor. This is the count of neighbout list updat or
extended neighbor list updates a mobile shall receive before removing
a neighbor from the neighbor list. See {{bibref|3GPP2-C.S0005}}.
Power control reporting threshold. Number of bad frames a mobile
should receive before sending a PMRM message. See
{{bibref|3GPP2-C.S0005}}.
Duration (in number of frames) for measuring bad frames - given by
equation 2^(PWR_REP_FRAMES/2) x 5 frames. For example, 6 corresponds
to 40 frames. See {{bibref|3GPP2-C.S0005}}.
enable/disable power measurement report message. See
{{bibref|3GPP2-C.S0005}}.
enable/disable periodic power measurement report message. See
{{bibref|3GPP2-C.S0005}}.
Delay (in unit of four frames) following a PMRM before the mobile
restarts counting bad frames for power control measuremnt. See
{{bibref|3GPP2-C.S0005}}.
If {{param}} is set to 1, the mobiles should restart and reinitialize
the System Parameters message. See {{bibref|3GPP2-C.S0005}}.
Power threshold (in {{units}}) for transferring a neighbor from
neighbor set or remaining set to active set. For example, a value of
26 corresponds to -13 dB. See {{bibref|3GPP2-C.S0005}}.
Drop threshold (in {{units}}) to start a handoff timer to drop a
neighbor from active or candidate set. For example, 30 corresponds to
-15dB. See {{bibref|3GPP2-C.S0005}}.
If a pilot in condidate set exceeds the power of a pilot in active
set by threshold, the mobile shall send a power strenght measurement
report message. This threshold is defined in unit of {{units}}. For
example, 5 corresponds to a threshold of 2.5 dB. See
{{bibref|3GPP2-C.S0005}}.
Timer value for which an action is taken by the mobile for a neighbor
in candidate set or in active set. Refer to Table 2.6.6.2.3-1 of the
{{bibref|3GPP2-C.S0005}} for details. For example, 3 corresponds to
four seconds
T-ADD value (in {{units}}) used for in-traffic system parameter
message. See {{bibref|3GPP2-C.S0005}}.
T-Drop value (in {{units}}) used in in-traffic system parameter
message. See {{bibref|3GPP2-C.S0005}}.
T_Comp value (in {{units}}) used for in-traffic system parameter
message. See {{bibref|3GPP2-C.S0005}}.
T_Tdrop timer value value used for in-traffic system parameter
message. See {{bibref|3GPP2-C.S0005}}.
The object used for configuring extended system parameter messages for
1x
protocol revision
minimum protocol revision
Delete Foreign TMSI. The base station shall set this field to '1' to
cause the mobile station to delete its TMSI if the TMSI was assigned
in a different TMSI zone from that specified by the TMSI_ZONE field
of this message; otherwise, the base station shall set this field to
'0'.
Use TMSI indicator. The base station shall set this field to the
value shown next field corresponding to the type of MSID that the
mobile station is to use on the Access Channel.
Preferred Access Channel Mobile Station Identifier Type. F294. The
base station shall set this field to the value shown as below
corresponding to the type of MSDI that the mobile station is to use
on the Access Channel. [useTMSI] [prefMSIDType] [description] 0 00
IMSI_S and ESN 0 10 IMSI 0 11 IMSI and ESN 1 10 TMSI; IMSI 1 11 TMSI;
IMSI and ESN
Mobile Country Code. See {{bibref|3GPP2-C.S0005}}.
11th and 12th digits of IMSI. See {{bibref|3GPP2-C.S0005}}.
TMSI zone length. The base station shall set this field to the number
of octets included in the TMSI_ZONE. The base station shall set this
field to a value in the range 1 to 8 inclusive.
TMSI zone. The base station shall set this field to the TMSI zone
number as specified in {{bibref|3GPP2-N.S0010}}.
Broadcast slot cycle index. To enable periodic broadcast paging, the
base station shall set this field to and unsigned 3-bit number in the
range 1-7, equal to the broadcast slot cycle index. To disable
periodic broadcast paging, the base station shall set this field to
'000'.
1: IMISI_T is supported, 0: IMSI_T is not supported. See
{{bibref|3GPP2-C.S0005}}.
The slope in the inequality criterion for adding a pilot to the
Active Set, or dropping a pilot from the Active Set. The base station
shall set this field as an unsigned binary number.
The intercept in the inequality criterion for adding a pilot to the
Active Set. The base station shall set this field as a two's
complement signed binary number, in units of {{units}}.
The intercept in the inequality criterion for dropping a pilot from
the Active Set. The base station shall set this field as a two's
complement signed binary number, in units of {{units}}.
Maximum number of alternative service options. The base station shall
set this field to the maximum number of alternative service option
numbers that the mobile station is allowed to include in the
Origination Message or the Page Response Message. For mobile stations
with MOB_P_REVs less than seven, the alternative service options are
those service options defined in TSB-58B and related to
SERVICE_OPTION in Origination Message and the Page Response Message.
For mobile stations with MOB_P_REVs equal to or greater than seven,
the alternative service options are those service options defined in
TSB-58B without service group number assigned and related to
SERVICE_OPTION in Origination Message and the Page Response Message.
The base station sets this field to a value greater than zero, in
addition, the base station shall allow the mobile station with
MOB_P_REVs equal to or greater than 7 to include - a 4 or 8-bit
service option bitmap in the Origination Message and the Page
Response Message; - alternative service option numbers, not limited
to MAX_ALT_SO_NUM, in the Enhanced Origination Message.
System reselection parameters included. If the base station is
including system reselection parameters, the base station shall set
this field to '1'; otherwise, the base station shall set this field
to '0'.
Pilot power threshold. If RESELECTINCLUDED is set to '1', the base
station shall include the field EC_THRESH and set this field to: [
(pilot_power_threshold + 115 ) ] where pilot_power_threshold is the
pilot power, Ec, in {{units}}/1.23 MHz, below which the mobile
station is to perform system reselection; otherwise, the base station
shall omit this field.
Pilot Ec / Io threshold. If RESELECTINCLUDED is set to '1', the base
station shall include the field EC_I0_THRESH and set this field to: [
- 20 x log10 (pilot_threshold) ] where pilot_threshold is the pilot
Ec/Io below which the mobile station is to perform system
reselection; otherwise, the base station shall omit this field.
Pilot reporting indicator. The base station shall set this field to
'1' if the mobile station is to report the additional pilots which
have pilot strength exceeding T_ADD in all Access Channel messages.
The base station shall set this field to '0' if the mobile station is
to report the additional pilots which have pilot strengths exceeding
T_ADD only in the Origination Message and the Page Response Message.
Neighbor Set access entry handoff information included indicator. If
the base station is including information on the Neighbor Set access
entry handoff, the base station shall set this field to '1';
otherwise, the base station shall set this field to '0'.
Access entry handoff permitted indicator. If NghbrSetEntryInfo is set
to '1', the base station shall set this field to '1' if the mobile
station is permitted to perform an access entry handoff after
receiving a message while performing the Mobile Station Order and
Message Processing Operation in the Mobile Station Idle State;
otherwise, the base station shall set this field to '0'.
Neighbor Set access handoff included indicator. If the base station
is including information on the Neighbor Set access handoff or access
probe handoff, the base station shall set this field to '1',
otherwise, the base station shall set this field to '0'.
Access handoff permitted indicator. If NghbrSetEntryInfo is set to
'1', the base station shall set this field to '1' if the mobile
station is permitted to perform an access handoff; otherwise, the
base station shall set this field to '0'.
Access handoff permitted for message response indicator. If AccessHO
is set to '1', the base station shall include this field and set it
as described below; otherwise, the base station shall omit this
field. The base station shall set this field to '1' if the mobile
station is permitted to perform an access handoff after receiving a
message and before responding to that message in the System Access
State; otherwise, the base station shall set this field to '0'.
Access probe handoff permitted indicator. If NghbrSetEntryInfo is set
to '1', the base station shall set this field to '1' if the base
station is permitted to perform an access probe handoff; otherwise,
the base station shall set this field to '0'.
Access handoff list update permitted indicator. If AccessProbeHO is
included and is set to '1', the base station shall set this field to
'1' if the mobile station is permitted to update the access handoff
list during an access attempt; otherwise, the base station shall set
this field to '0'.
Access probe handoff permitted for messages other than the
Origination Message and the Page Response Message. If AccessProbeHO
is set to '1', the base station shall set this field to '1' if the
mobile station is permitted to perform an access probe handoff for
messages other than the Origination Message and the Page Response.
The base station shall set this field to '0' if the mobile station is
permitted to perform an access probe handoff only for the Origination
Message and the Page Response Message.
Maximum number of times that mobile station is permitted to perform
an access probe handoff. If AccessProbeHO is set to '1', the base
station shall set this field to the maximum number of times the
mobile station is allowed to perform an access probe handoff within
an access attempt minus one.
If {{param}} is set to 1, then Braodcast GPS assist is supported. See
{{bibref|3GPP2-C.S0005}}.
Quick Paging Channel Supported Indication. If the base station
supports Quick Paging Channel operation, the base station shall set
this field to '1'; otherwise the base station shall set this field to
'0'.
Number of Quick Paging Channels. If the base station sets
QPCHSUPPORTED to '1', the base station shall include this field and
set it as described below; otherwise, the base station shall omit
this field. The base station shall set this field to the number of
Quick Paging Channels on this CDMA Channel. The base station shall
not set this field to '00'.
Quick Paging Channel indicator rate. See {{bibref|3GPP2-C.S0005}}.
{{param}} is set as follows: 0: 4800bps; 1: 9600bps.
Quick Paging Channel paging indicator transmit power level. {{param}}
is set as follows: 0: 5 dB below; 1: 4 dB below; 2: 3 dB below; 3: 2
dB below; 4: 1 dB below; 5: Same; 6: 1 dB above; 7: 2dB above.
Quick Paging Channel configuration change indicator supported.
{{param}} is set as follows: if the base station is to support
configuration change indicators on the Quick Paging Channel,
{{param}} to '1'; otherwise {{param}} is set to '0'.
Quick Paging Channel configuration change indicator CONFIG transmit
power level. See {{bibref|3GPP2-C.S0005}}.
Short Data Burst supported indicator. See {{bibref|3GPP2-C.S0005}}.
Gain adjustment of the Reverse Traffic Channel relative to the
Reverse Pilot Channel for Radio Configurations greater than 2.
{{param}} is set to the correction factor to be used by mobile
stations in setting the power of a reverse traffic channel, expressed
as a two's complement value in units of {{units}}.
Reverse Power Control Delay included indicator. See
{{bibref|3GPP2-C.S0005}}.
The reverse power control delay. {{param}} is setto the closed-loop
reverse power control delay minus one (the closed-loop reverse power
control delay is the time between the end of a gated-on reverse PCG
and the beginning of the Forward Power Control Subchannel in units of
{{units}}.
The object used for configuring extended channel assignment messages
for 1x
Initial Fundamental Channel outer loop Eb/Nt setpoint in {{units}}.
For example, 56 corresponds to 7 dB. See {{bibref|3GPP2-C.S0005}}.
Forward power control subchannel relative to fwd traffic channel in
{{units}}. See {{bibref|3GPP2-C.S0005}}.
Reverse Traffic Channel power relative to access power in {{units}}.
See {{bibref|3GPP2-C.S0005}}.
Fundamental Channel target frame error rate. Refer to table
3.7.3.3.2.25-2 of {{bibref|3GPP2-C.S0005}}
Minimum Fundamental Channel Outer Loop Eb/Nt setpoint in {{units}}.
See {{bibref|3GPP2-C.S0005}}.
Maximum Fundamental Channel Outer Loop Eb/Nt setpoint in {{units}}.
See {{bibref|3GPP2-C.S0005}}.
This object provides configurable parameters for 1x Handout
Enabling handout operation.
Pilot power threshold (in {{units}} relative to the FAP pilot power)
for handout declaration
Timethreshold for handout declaration (in {{units}})
This object contains statistics for all Handouts of the 1x FAP.
Total number of Handout Required messages sent to the MSC
Total number of Handout Command messegaes received from the MSC
Total number of HO required requests rejected by the MSC
Total number of HO required requests for which no response received
from the MSC
Total number UHDMs sent to mobiles
Total number of MSAcks received from the mobile in response to UHDM
Total number of Handout attempts declared as failure
Total numer of call drops after a HO attempt. RTC lost without MSack
Number of Handout Commenced messages sent to MSC
Number of session clear commands received form the core
Total number of times a Return On Handoff failure was declared
Number of times only one pilot was reported in HO Required message
Number of times only two pilot was reported in HO Required message
Number of times only three pilot was reported in HO Required message
Configuration Managed Object for OTA power control attribute.
Whether Forward power control information included in Power Control
message
The value for the minimum Fundamental Channel Outer Loop Eb/Nt
setpoint, in units of {{units}}.
The value for the maximum Fundamental Channel Outer Loop Eb/Nt
setpoint, in units of {{units}}.
Whether reverse Power control information included in the Power
Control Message.
Channel adjustment gain (in {{units}}) for Reverse Fundamental
Channel.
The number of bad frames to be received in a measurement period on
the channel which carries the Power Control Subchannel before mobile
stations are to generate a Power easurement Report Message
Power control reporting frame count. Number of frames over which the
mobile station measures frame errors. For example, 7 corresponds to
55 frames. Refer to {{bibref|3GPP2-C.S0005}} for mapping between this
value and the actual frame count.
Threshold report mode indicator. If the mobile station is to generate
threshold Power Measurement Report Messages, the base station shall
set this field to '1'. If the mobile station is not to generate
threshold Power Measurement Report Messages, the base station shall
set this field to '0'.
Periodic report mode indicator. If the mobile station is to generate
periodic Power Measurement Report Messages, the base station shall
set this field to '1'. If the mobile station is not to generate
periodic Power Measurement Report Messages, the base station shall
set this field to '0'.
Power report delay. The period that the mobile station waits
following a Power Measurement Report Message before restarting frame
counting for power control purposes. The base station shall set this
field to the power report delay values in units of {{units}}.
This object contains information common to all neighbors of a sector.
This object has only one instance.
Enables or disables the {{object}} entry.
{{datatype|expand}}
pilot increment policy for this network. See
{{bibref|3GPP2-C.S0005}}.
Macro neighbour index. See {{bibref|3GPP2-C.S0005}}.
Neighbor configuration in terms of number of frequencies having
paging channels as defined in Section 3.7.2.3.2 of the
{{bibref|3GPP2-C.S0005}} standard
PN offset of the neighbor. See {{bibref|3GPP2-C.S0005}}.
priority level for serching this neighbor. See
{{bibref|3GPP2-C.S0005}}.
Neighbor band class. See {{bibref|3GPP2-C.S0005}}.
frequency of neighbor. See {{bibref|3GPP2-C.S0005}}.
Flag to indicate if the channel id included. See
{{bibref|3GPP2-C.S0005}}.
whether this neighbor can be used for in-traffic neighborlist message
whether this neighbor can be used for overhead neighborlist message
unique identifire of the neighboring cell (optional)
Air interface technology of the neighbor.
Flag to indicate if the handOutCapability is possible.
Longitude for this neighbor. Parameter is a string representing a
floating point real number (+/- XXX.YY). Where + for East, - for
West, XXX.Y ranges between 0.0 and 180.0 .
Lattitude for this neighbor. Parameter is a string representing a
floating point number (+/-XX.Y). + for North, - for South, XX.Y
ranges between 0.0 and 90.0.
IOS MSCID of the neighbors. See {{bibref|3GPP2-A.S0014}}.
Cell Identifier of the neighbor (formatted according to Cell
Identification Discriminator = '0000 0010', i.e., 12-bit cell value
and 4-bit sector value). See {{bibref|3GPP2-A.S0014}}.
If {{param}} is set to {{true}}, the FAP SHOULD include this Neighbor
List entry in the Neighbor List overhead messages (see
{{bibref|3GPP2-C.S0005}}. Otherwise, {{param}} is set to {{false}},
in which case the FAP MAY include this Neighbor List entry in the
Neighbor List overhead messages.
If {{param}} is set to {{true}}, the FAP is currently including this
Neighbor List entry in the Neighbor List overhead messages (see
{{bibref|3GPP2-C.S0005}}. Otherwise, {{param}} is set to {{false}}.
This object can be configured only if
{{param|.Capabilities.CDMA2000.OneX.FemtoOverheadMessagesCapable}} is
set to {{true}}.
The FAP shall set this field to the value shown in
{{bibref|3GPP2-C.S0005}} corresponding to the configuration of the
base station.
The FAP shall set this field to the length of the access point
identification in units of 16 bits. Refer to
{{bibref|3GPP2-C.S0005}}.
Access Point Identification. Refer {{bibref|3GPP2-C.S0005}} for
definition.
Access Point identification Mask. Refer {{bibref|3GPP2-C.S0005}} for
definition.
MSC_ID of the base station. Refer {{bibref|3GPP2-C.S0005}} for
definition.
CELL_ID of the base station. Refer {{bibref|3GPP2-C.S0005}} for
definition.
This field indicates whether the INTRAFREQHOHYS field is valid and
included in Access Point Identification message. Refer
{{bibref|3GPP2-C.S0005}} for definition.
Intra Frequency Handoff Hysteresis. Refer {{bibref|3GPP2-C.S0005}}
for definition.
This field indicates whether the INTRAFREQHOSLOPE field is valid and
included in Access Point Identification message. Refer
{{bibref|3GPP2-C.S0005}} for definition.
Intra Frequency Handoff Slope. Refer {{bibref|3GPP2-C.S0005}} for
definition.
This field indicates whether the INTERFREQHOHYS field is valid and
included in Access Point Identification message. Refer
{{bibref|3GPP2-C.S0005}} for definition.
Inter frequency handoff hysteresis. Refer {{bibref|3GPP2-C.S0005}}
for definition.
This field indicates whether the INTERFREQHOSLOPE field is valid and
included in Access Point Identification message. Refer
{{bibref|3GPP2-C.S0005}} for definition.
Inter frequency handoff slope. Refer {{bibref|3GPP2-C.S0005}} for
definition.
This field indicates whether the INTERFREQSRCHTH field is valid and
included in Access Point Identification message. Refer
{{bibref|3GPP2-C.S0005}} for definition.
Inter-frequency search threshold. Refer {{bibref|3GPP2-C.S0005}} for
definitions
This object can be configured only if
{{param|.Capabilities.CDMA2000.OneX.FemtoOverheadMessagesCapable}} is
set to {{true}}.
Access Point identification Text CHARi field Length
({{param|APIDTEXTCHARi}}). Refer {{bibref|3GPP2-C.S0005}} for
definitions
Access Point identification Text message encoding. Refer
{{bibref|3GPP2-C.S0005}} and {{bibref|3GPP2-C.R1001}} for definitions
Access Point Identification Text. Refer {{bibref|3GPP2-C.S0005}} and
{{bibref|3GPP2-C.R1001}} for definitions.
This object can be configured only if
{{param|.Capabilities.CDMA2000.OneX.FemtoOverheadMessagesCapable}} is
set to {{true}}.
Lifetime of the information in the access point pilot information
record. Refer {{bibref|3GPP2-C.S0005}} for definitions
The number of entries for
{{object|.CellConfig.CDMA2000.OneX.RAN.APPIM.APPIREC.{i}.}}
{{numentries}}
This object can be configured only if
{{param|.Capabilities.CDMA2000.OneX.FemtoOverheadMessagesCapable}} is
set to {{true}}.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Access point association type the access point pilot information
record. Refer {{bibref|3GPP2-C.S0005}} for definitions
SID same as previous indicator in the access point pilot information
record. Refer {{bibref|3GPP2-C.S0005}} for definitions
NID same as previous indicator in the access point pilot information
record. Refer {{bibref|3GPP2-C.S0005}} for definitions
Bandclass same as previous indicator in the access point pilot
information record. Refer {{bibref|3GPP2-C.S0005}} for definitions
Frequency same as previous indicator in the access point pilot
information record. Refer {{bibref|3GPP2-C.S0005}} for definitions
PN offset same as previous indicator in the access point pilot
information record. Refer {{bibref|3GPP2-C.S0005}} for definitions
Access point SID in the access point pilot information record. Refer
{{bibref|3GPP2-C.S0005}} for definitions
Access point NID in the access point pilot information record. Refer
{{bibref|3GPP2-C.S0005}} for definitions
Access point bandclass in the access point pilot information record.
Refer {{bibref|3GPP2-C.S0005}} for definitions
Access point frequency in the access point pilot information record.
Refer {{bibref|3GPP2-C.S0005}} for definitions
Access point PN offset in the access point pilot information record.
Refer {{bibref|3GPP2-C.S0005}} for definitions
Length in octets of the access point PN record ({{param|APPNREC}}) in
the access point pilot information record. Refer
{{bibref|3GPP2-C.S0005}} for definitions
Access point PN Record in the access point pilot information record.
Refer {{bibref|3GPP2-C.S0005}} for definitions
CDMA2000 1x PCF configuration information.
PDSN health check monitor interval in {{units}}. Setting the value to
0 disables the PDSN Health Monitoring Feature. Setting any non-zero
value enables the PDSN Health Monitoring Feature and sets that
non-zero value as the timer interval.
This object is used in obtaining the PCF stats
Number of times the PCF was refused an A10 connection with an
unspecified reason (A11 error code : 0x80)
Number of times the PCF was refused an A10 connection with a reason
"Admin Prohibited" (A11 error code : 0x81).
Number of times the PCF was refused an A10 connection with a reason
"Insufficient Resources" (A11 error code: 0x82).
Number of times the PCF was refused an A10 connection with a reason
"Mobile Node Authentication Failure" (A11 error code: 0x83).
Number of times the PCF was refused an A10 connection with a reason
"Id Mismatch" (A11 error code: 0x85)
Number of times the PCF was refused an A10 connection with a reason
"Malformed Request" (A11 error code: 0x86)
Number of times the PCF was refused an A10 connection with a reason
"Unknown PDSN" (A11 error code: 0x88)
Number of times the PCF was refused an A10 connection with a reason
"Unsupported Vendor Id" (A11 error code: 0x89)
Number of A10 closed by the FAP RNC.
Number of A10 closed by the PDSN.
Numebr of A10 Pages initiated by PCFsucceeded.
Numebr of A10 Pages initiated by PCF failed.
Number of {{units}} received from the PDSN.
Number of {{units}} transmitted to the PDSN
Number of A10 Registration updates received by the FAP PCF
Number of A10 Pages initiated by PCF dropped
The Batch configuration Object used to configure PDSN table using a
start and end IP address. The order of the address is used as part of
PDSN selection algorithm, e.g., the first element is considered PDSN
number 0. (Refer to {{bibref|3GPP2-A.S0013}}). To get individual PDSN
entries use the {{object|.CellConfig.CDMA2000.OneX.PCFPDSN.{i}.}}.
Enables or disables the {{object}} entry.
{{datatype|expand}}
The BatchTable Number should be given only once during the creation
of a Batch Table. This is the Key Attribute that uniquely identifies
a BatchTable entry. This number indicates the index of this batch to
determine the PDSN number in the PDSN selection algorithm
({{bibref|3GPP2-A.S0013}}).
Start IP address of the range of PDSNs.
End IP address of the range of PDSNs.
Security Parameter Index to be used.
Secret key in 32-digit hexidecimal representation.
IOS Version of this PDSN.
Administrative status of this PDSN. 0- UP 1-DOWN.
Indicates the PDSN type for this batch.
PCFPDSN Object configured for 1x.
{{object|.CellConfig.CDMA2000.OneX.BatchPCFPDSN.{i}.}} table should be
used to configure PDSN details.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Index of this PDSN object in the PCFPDSNCollection array. The index
is used as PDSN number in PDSN selection algorithm.
({{bibref|3GPP2-A.S0013}})
Security Parameter Index used
Secret key in 32-digit hexidecimal representation.
HRPD IOS Version of this PDSN.
Administrative status of this PDSN. 0- UP 1-DOWN.
Reachability status of this PDSN. 0-unreachable, 1-reachable.
IP address of the PDSN.
This object is used in obtaining the A11 Registration Update stats for
each PDSN
The PDSN Number
The IP Address of the PDSN for which the A11 Reg Update stats is
obtained
Number of A10 Reg-update messages receieved from a PDSN
Number of A10 Reg-Update messages receieved from a PDSN that failed
ID validation
Number of A10 Reg-Update messages received from a PDSN that failed
Authentication
Number of A10 Reg-Update messages received from a PDSN with unknown
PSI
Number of A10 Reg-Update messages received from a PDSN with
unspecified reason code
Number of A10 Reg-Update messages received from a PDSN with reason
code "PPP Timeout"
Number of A10 Reg-Update messages received from a PDSN with reason
code "Registration Timeout"
Number of A10 Reg-Update messages received from a PDSN with reason
code "PDSN Error"
Number of A10 Reg-Update messages received from a PDSN with reason
code "Inter PCF Handoff"
Number of A10 Reg-Update messages received from a PDSN with reason
code "Inter PDSN Handoff"
Number of A10 Reg-Update messages received from a PDSN with reason
code "PDSN OAMP Intervention"
Number of A10 Reg-Update messages received from a PDSN with reason
code "Accounting Error"
Number of A10 Reg-Update messages received from a PDSN with reason
code "User Failed Authentication"
Number of A10 Reg-Update messages received from a PDSN with Unknown
Cause Code
Number of A10 Reg-Update messages received from a PDSN with PDSN Code
Not Included
This object is used in obtaining the PCF PDSN stats for each PDSN
Number of attempts the PCF made to establish an A10 connection with
PDSN. If PCF fails establishing such a connection on this PDSN and
goes on to use another PDSN for that connection, it will be counted
as two setup attempts.
Number of times PCF succeeded in establishing an A10 connection with
this PDSN.
Number of times PCF was blocked in establishing an A10 connection
with this PDSN.
Number ofA11 Registration Request denied with a reason "Id Mismatch"
(A11 error code: 0x85) by the PDSN
Number of A11 Registration Request denied with a reason "Unknown
PDSN" (A11 error code: 0x88)by the PDSN.
Number of A11 Registration Request denied with no reason code by the
PDSN.
Number of A11 Registration Request denied with a reason "Admin
Prohibited" (A11 error code : 0x81) by the PDSN.
Number of A11 Registration Request denied with a reason "Insufficient
Resources" (A11 error code: 0x82) by the PDSN.
Number of A11 Registration Request denied with a reason "Mobile Node
Authentication Failure" (A11 error code: 0x83) by the PDSN.
Number of A11 Registration Request denied with a reason "Malformed
Request" (A11 error code: 0x86) by the PDSN
Number ofA11 Registration Request denied with a reason "Unsupported
Vendor Id" (A11 error code: 0x8D)by the PDSN
Number ofA11 Registration Request denied with a reason "Reverse
Tunnel Unavailable" (A11 error code: 0x89)by the PDSN
Number ofA11 Registration Request denied with a reason "Reverse
Tunnel Tbit Not Set" (A11 error code: 0x8A)by the PDSN
Number of A11 Registration Request denied with an unspecified reason
(A11 error code : 0x80) by the PDSN
Number of A11 Registration Requests retransmitted during A10 setup
Number of A11 Registration Requests retransmitted during A10
reregistration
Number of A11 Registration Requests retransmitted during A10 realease
The PDSN Number
The IP Address of the PDSN for which the PCF PDSN stats is obtained
This object contains 1x FAP statistics aggregated over all connections
of all users over all sectors.
Total number of registration attempts
Total number of registrations failed
Unauthorized registrations blocked by admission control
Total number of attemots to page requests received from the core
Total number of page requests rejected or not responded
Total number of voice call attempts
Total number of voice call attempts which failed for various reasons
Total number of voice calls blocked due to lack of authorization
Number of voice calls dropped due to various reasons other than a
normal call release
Total number of data call attempts
Total number of data call attemots failed for various reasons
Total number of data calls failed due to lack of authorization
Total number of data calls dropped due to reasons other than a normal
release.
Average voice call duration in {{units}}.
Average data call duration in {{units}}
Average session duration in {{units}}.
Total number of successful voice calls
Total number of successful data calls
Percentage of voice packets dropped in MAC due to signaling
Percentage of voice packets received with bad FQI
Average data rate of the scheduler on the forward link
Average data rate of the scheduler on reverse link
Num of times the bcIndex was changed from 0 to 1 in the Extended
System Parameters Message.
Num of times the bcIndex was changed from 0 to 1 in the Extended
System Parameters Message.
CDMA2000 1x service redirection parameters.
The channel number set from ACS that the FAP uses to redirect the MS
in case of closed access or when exceeding session capacity. The ACS
shall push this if the the operator has provided this information in
a configuration file. If this is not configured, the FAP rejects the
AT. The supported range is 0..2047.
The bandclass set from ACS that the FAP uses to redirect the MS
incase of closed access or when exceeding session capacity. The ACS
shall push this if the the operator has provided this information in
a configuration file. If this is not configured, the FAP rejects the
MS. The supported range is 0..9.
The object contains attributes related to HRPD.
{{numentries}}
Maximum number of entries in the
{{object|.CellConfig.CDMA2000.HRPD.BatchPCFPDSN.{i}.}} table.
{{numentries}}
The object contains attributes related to HRPD RAN.
Contains the details related to HRPD RF
The Band Class this HRPD Carrier object is to operate on. Reference -
{{bibref|3GPP2-C.S0057}}, Band Class Specification for CDMA2000
Spread Spectrum Systems.
{{list}} Each item is a FL Radio Frequency Channel Number (RFCN).
Self-configuration for RFCNFL is controlled by
{{param|.Capabilities.CDMA2000.HRPD.SelfConfig.RFCNFLConfig}} from an
availability perspective and
{{param|.FAPControl.CDMA2000.HRPD.SelfConfig.RFCNFLSelfConfigEnable}}
from an enabled perspective. If the FAP's self-configuration
capability for RFCNFL is available and enabled, this parameter MAY
contain more than one item and the FAP is expected to select one from
the list for {{param|RFCNFLInUse}}. If the self-configuration
capability is not available or not enabled, then this parameter
SHOULD contain only a single item. If multiple items are specified,
they are done in the order of preference.
The FL RFCN being used by the FAP. Self-configuration for RFCNFL is
controlled by
{{param|.Capabilities.CDMA2000.HRPD.SelfConfig.RFCNFLConfig}} from an
availability perspective and
{{param|.FAPControl.CDMA2000.HRPD.SelfConfig.RFCNFLSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in {{param|RFCNFL}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains the first value in {{param|RFCNFL}}.
{{list}} (maximum length 32) (minimum 1 items) of strings. Each item
is a pilot PN offset in units of 64 PN chips. Self-configuration for
pilot PN is controlled by
{{param|.Capabilities.CDMA2000.HRPD.SelfConfig.PilotPNConfig}} from
an availability perspective and
{{param|.FAPControl.CDMA2000.HRPD.SelfConfig.PilotPNSelfConfigEnable}}
from an enabled perspective. If the FAP's self-configuration
capability for Pilot PN Offset is available and enabled, this
parameter MAY contain more than one item and the FAP is expected to
select one from the list for {{param|PilotPNInUse}}. If the
self-configuration capability is not available or not enabled, then
this parameter SHOULD contain only a single item. The multiplicity of
the PN offsets values can also be expressed by defining a range using
".." (two periods) between two values. In this case, the combination
of two values defines the lower-bound and upper-bound of the range
inclusive. The order of the items has no significance.
The Pilot PN Offset being used by the FAP. Self-configuration for
Pilot PN Offset is controlled by
{{param|.Capabilities.CDMA2000.HRPD.SelfConfig.PilotPNConfig}} from
an availability perspective and
{{param|.FAPControl.CDMA2000.HRPD.SelfConfig.PilotPNSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the choices provided in {{param|PilotPN}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains the first value in {{param|PilotPN}}.
Defines the maximum transmission power allowed on the FAP. {{param}}
is expressed as a range of allowed maximum power levels with ".."
(two periods) between the upper and lower values, i.e.
"<;Pmax_low>..<;Pmax_high>". {{param}} identifies the
limits between which the FAP can self-configure its maximum transmit
power. Self-configuration for maximum transmission power is
controlled by
{{param|.Capabilities.CDMA2000.HRPD.SelfConfig.MaxFAPTxPowerConfig}}
from an availability perspective and
{{param|.FAPControl.CDMA2000.HRPD.SelfConfig.MaxFAPTxPowerSelfConfigEnable}}
from an enabled perspective. <;Pmax_low> and <;Pmax_high>
are measured in dBm and have a range of -40.0 to 20.0 incremented by
0.1 dB.
The maximum transmission power measured in {{units}} currently used
by the FAP. Actual values of the maximum transmission power are -40.0
dBm to 20.0 dBm in steps of {{units}}. The value of {{param}} divided
by 10 yields the actual value of the maximum transmission power.
Self-configuration for maximum transmission power is controlled by
{{param|.Capabilities.CDMA2000.HRPD.SelfConfig.MaxFAPTxPowerConfig}}
from an availability perspective and
{{param|.FAPControl.CDMA2000.HRPD.SelfConfig.MaxFAPTxPowerSelfConfigEnable}}
from an enabled perspective. If the self-configuration capability is
available and enabled, this parameter indicates the value selected by
the FAP among the range provided in {{param|MaxFAPTxPower}}. If the
self-configuration capability is not available or not enabled, then
this parameter contains a value selected by the ACS.
The data rate of the Control Channel of this HRPD SectorElement
object. Reference - {{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate
Packet Data Air Interface Specification, section-10.4.1.3.2.4
The offset from the control channel cycle boundary at which the
synchronous capsules are to be transmitted for this HRPD
SectorElement object. Reference -{{bibref|3GPP2-C.S0024-B}}, CDMA2000
High Rate Packet Data Air Interface Specification,
section-9.2.6.1.4.1.2
The Reverse Activity Bit (RAB) length measured in slots for this HRPD
SectorElement object. Reference -{{bibref|3GPP2-C.S0024-B}}, CDMA2000
High Rate Packet Data Air Interface Specification, section-7.8.6.2.2,
Table 9.7.6.2-2.
The Reverse Activity Bit (RAB) offset for this HRPD SectorElement
object. Reference - {{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate
Packet Data Air Interface Specification, section-7.8.6.2.2.
The 128 bit Sector ID for this HRPD SectorElement object. The Sector
ID is used in the computation of the long code mask. See
{{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate Packet Data Air
Interface Specification.
The HRPD color code associated with this sector-element. Reference
-{{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate Packet Data Air
Interface Specification
{{param}} is the length of the HRPD SubnetMask in {{units}}. See
{{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate Packet Data Air
Interface Specification
Duration of the Reverse Link Silence Interval in units of {{units}}.
The duration of the silence interval to be maintained on the reverse
link. Reference -{{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate
Packet Data Air Interface Specification. Section-9.4.6.1.4.1.1.
The Reverse Link Silence Interval is defined as the time interval of
duration ReverseLinkSilenceDuration frames that starts at times T
where T is the CDMA System Time in units of {{units}} and it
satisfies the following equation: T mod (2048 x
2^(ReverseLinkSilencePeriod) - 1) = 0. The period in the access cycle
duration for which the silence interval shall be maintained on the
reverse link. {{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate Packet
Data Air Interface Specification. Section-9.4.6.1.4.1.1.
The open loop adjustment (in {{units}}) for the access parameters of
this sector-element. FAP sets this field to the negative of the
nominal power to be used by ATs in the open loop power estimate,
expressed as an unsigned value in units of 1 dB. The value used by
the AT is -1 times the value of this field. Reference
-{{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate Packet Data Air
Interface Specification. Section-9.4.6.2.6
The probe initial adjustment (in {{units}}) for the access parameters
of this sector-element. FAP sets this field to the correction factor
to be used by ATs in the open loop power estimate for the initial
transmission on the Access Channel, expressed as a two's complement
value in units of 1 dB. Reference -{{bibref|3GPP2-C.S0024-B}},
CDMA2000 High Rate Packet Data Air Interface Specification.
Section-9.4.6.2.6
The number of power level steps for access probes for the access
parameters of this sector-element. FAP sets this field to the maximum
number of access probes ATs are to transmit in a single access probe
sequence. The access network shall set this field to a value in the
range [1 ... 15]. Reference -{{bibref|3GPP2-C.S0024-B}}, CDMA2000
High Rate Packet Data Air Interface Specification. Section-9.4.6.2.6
The power step size (in {{units}}) applied to successive probes on
the access channel associated with this sector-element. Probe power
increase step. FAPsets this field to the increase in power between
probes, in resolution of 0.5 dB. Reference
-{{bibref|3GPP2-C.S0024-B}}, CDMA2000 High Rate Packet Data Air
Interface Specification. Section-9.4.6.2.6
The A-Persistence vector, as per HRPD specification, for controlling
contention access on the access channel associated with this
sector-element. Reference - {{bibref|3GPP2-C.S0024-B}}, CDMA2000 High
Rate Packet Data Air Interface Specification. Section-9.4.6.2.6.
Format is "0xAABBCCDD", where AA, BB, CC, DD are in the range "01"
through "3F" hex.
RAB threshold for RSSI based RAB algorithm.
RAB threshold for Load based RAB algorithm in units of {{units}}.
4 different configurations.
Config Parameter for DRC based rate control
CDMA2000 HRPD PCF configuration parameters.
PDSN health check monitor interval in {{units}}. Setting the value to
0 disables the PDSN Health Monitoring Feature. Setting any non-zero
value enables the PDSN Health Monitoring Feature and sets that
non-zero value as the timer interval.
This object is used in obtaining the PCF stats
Number of times the PCF was refused an A10 connection with an
unspecified reason (A11 error code : 0x80)
Number of times the PCF was refused an A10 connection with a reason
"Admin Prohibited" (A11 error code : 0x81).
Number of times the PCF was refused an A10 connection with a reason
"Insufficient Resources" (A11 error code: 0x82).
Number of times the PCF was refused an A10 connection with a reason
"Mobile Node Authentication Failure" (A11 error code: 0x83).
Number of times the PCF was refused an A10 connection with a reason
"Id Mismatch" (A11 error code: 0x85)
Number of times the PCF was refused an A10 connection with a reason
"Malformed Request" (A11 error code: 0x86)
Number of times the PCF was refused an A10 connection with a reason
"Unknown PDSN" (A11 error code: 0x88)
Number of times the PCF was refused an A10 connection with a reason
"Unsupported Vendor Id" (A11 error code: 0x89)
Number of A10 closed by the FAP RNC
Number of A10 closed by the PDSN
Numebr of A10 Pages initiated by PCFsucceeded
Numebr of A10 Pages initiated by PCF failed
Number of {{units}} received from the PDSN
Number of {{units}} transmitted to the PDSN
Number of A10 Registration updates received by the FAP PCF
Number of A10 Pages initiated by PCF dropped
The Batch configuration Object used to configure PDSN table using a
start and end IP address. The order of the address is used as part of
PDSN selection algorithm, e.g., the first element is considered PDSN
number 0 (refer to {{bibref|3GPP2-A.S0008}} and
{{bibref|3GPP2-A.S0009}}). To get individual PDSN entries use the
{{object|.CellConfig.CDMA2000.HRPD.PCFPDSN.{i}.}}.
Enables or disables the {{object}} entry.
{{datatype|expand}}
The BatchTable Number should be given only once during the creation
of a Batch Table. This is the Key Attribute that uniquely identifies
a BatchTable entry
Start IP address of the range of PDSNs
End IP address of the range of PDSNs
Security Parameter Index to be used
Secret key in 32-digit hexidecimal representation.
HRPD IOS Version of this PDSN
Administrative status of this PDSN. 0- UP 1-DOWN.
Indicates the PDSN type for this batch.
PCFPDSN Object configured for HRPD.
{{object|.CellConfig.CDMA2000.HRPD.BatchPCFPDSN.{i}.}} table should be
used to configure PDSN details.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Index of this PDSN object in the PCFPDSNCollection array. The index
is used as PDSN number in PDSN selection algorithm (refer to
{{bibref|3GPP2-A.S0008}} and {{bibref|3GPP2-A.S0009}})
Security Parameter Index used
Secret key in 32-digit hexidecimal representation.
HRPD IOS Version of this PDSN
Administrative status of this PDSN. 0- UP 1-DOWN.
Reachability status of this PDSN. 0-unreachable, 1-reachable.
IP address of the PDSN.
This object is used in obtaining the A11 Session Update stats for each
PDSN
The PDSN Number
The IP Address of the PDSN for which the A11 Session Update stats is
obtained
Number of A11 Session Updates received from a PDSN
Number of A11 Session Updates accepted for a PDSN
Number of A11 Session Updates received from this PDSN that contained
extended API
Number of A11 Session Updates received from this PDSN that conatained
unknown PSI
Number of A11 Session Updates received from this PDSN denied due to
reason code "ID Check Failed "
Number of A11 Session Updates received from this PDSN denied due to
reason code"Auth Check Failed"
Number of A11 Session Updates received from this PDSN denied due to
reason code "Unspecified Reason"
Number of A11 Session Updates received from this PDSN denied due to
reason code "Poorly Formed"
Number of A11 Session Updates received from this PDSN denied due to
reason code "Parameters Not Updated"
Number of A11 Session Updates received from this PDSN denied due to
reason code "QoS Profile Id Not Updated"
Number of A11 Session Updates received from this PDSN denied due to
reason code "Insufficient Resources"
Number of A11 Session Updates received from this PDSN denied due to
reason code"Handoff In Progress"
This object is used in obtaining the A11 Registration Update stats for
each PDSN.
The PDSN Number
The IP Address of the PDSN for which the A11 Reg Update stats is
obtained
Number of A10 Reg-update messages receieved from a PDSN
Number of A10 Reg-Update messages receieved from a PDSN that failed
ID validation
Number of A10 Reg-Update messages received from a PDSN that failed
Authentication
Number of A10 Reg-Update messages received from a PDSN with unknown
PSI
Number of A10 Reg-Update messages received from a PDSN with
unspecified reason code
Number of A10 Reg-Update messages received from a PDSN with reason
code "PPP Timeout"
Number of A10 Reg-Update messages received from a PDSN with reason
code "Registration Timeout"
Number of A10 Reg-Update messages received from a PDSN with reason
code "PDSN Error"
Number of A10 Reg-Update messages received from a PDSN with reason
code "Inter PCF Handoff"
Number of A10 Reg-Update messages received from a PDSN with reason
code "Inter PDSN Handoff"
Number of A10 Reg-Update messages received from a PDSN with reason
code "PDSN OAMP Intervention"
Number of A10 Reg-Update messages received from a PDSN with reason
code "Accounting Error"
Number of A10 Reg-Update messages received from a PDSN with reason
code "User Failed Authentication"
Number of A10 Reg-Update messages received from a PDSN with Unknown
Cause Code
Number of A10 Reg-Update messages received from a PDSN with PDSN Code
Not Included
This object is used in obtaining the Auxillary A10 Connection stats for
each PDSN
The PDSN Number
The IP Address of the PDSN for which the PCF PDSN stats is obtained
Number of Auxillary A10 Connections Created in the First Registration
Request Message to the PDSN
Number of Auxillary A10 Connections Created in Subsequent
Registration Request Messages to the PDSN
Number of Forward IP Flows created with this PDSN for the Auxillary
A10s
Number of Forward IP Flows created with this PDSN for the Auxillary
A10s
Number of IP flow Accounting Reg Requests sent to the PDSN
This object is used in obtaining the PCF PDSN stats for each PDSN
Number of attempts the PCF made to establish an A10 connection with
PDSN. If PCF fails establishing such a connection on this PDSN and
goes on to use another PDSN for that connection, it will be counted
as two setup attempts.
Number of times PCF succeeded in establishing an A10 connection with
this PDSN.
Number of times PCF was blocked in establishing an A10 connection
with this PDSN.
Number ofA11 Registration Request denied with a reason "Id Mismatch"
(A11 error code: 0x85) by the PDSN
Number of A11 Registration Request denied with a reason "Unknown
PDSN" (A11 error code: 0x88)by the PDSN.
Number of A11 Registration Request denied with no reason code by the
PDSN.
Number of A11 Registration Request denied with a reason "Admin
Prohibited" (A11 error code : 0x81) by the PDSN.
Number of A11 Registration Request denied with a reason "Insufficient
Resources" (A11 error code: 0x82) by the PDSN.
Number of A11 Registration Request denied with a reason "Mobile Node
Authentication Failure" (A11 error code: 0x83) by the PDSN.
Number of A11 Registration Request denied with a reason "Malformed
Request" (A11 error code: 0x86) by the PDSN
Number ofA11 Registration Request denied with a reason "Unsupported
Vendor Id" (A11 error code: 0x8D)by the PDSN
Number ofA11 Registration Request denied with a reason "Reverse
Tunnel Unavailable" (A11 error code: 0x89)by the PDSN
Number ofA11 Registration Request denied with a reason "Reverse
Tunnel Tbit Not Set" (A11 error code: 0x8A)by the PDSN
Number of A11 Registration Request denied with an unspecified reason
(A11 error code : 0x80) by the PDSN
Number of A11 Registration Requests retransmitted during A10 setup
Number of A11 Registration Requests retransmitted during A10
reregistration
Number of A11 Registration Requests retransmitted during A10 realease
The PDSN Number
The IP Address of the PDSN for which the PCF PDSN stats is obtained
CDMA2000 HRPD service redirection parameters.
The channel number set from ACS that the FAP uses to redirect the AT
in case of closed access or when exceeding session capacity. The ACS
shall push this if the the operator has provided this information in
a configuration file. If this is not configured, the FAP rejects the
AT. The supported range is 0..2047.
The bandclass set from ACS that the FAP uses to redirect the AT
incase of closed access or when exceeding session capacity. The ACS
shall push this if the the operator has provided this information in
a configuration file. If this is not configured, the FAP rejects the
AT. The supported range is 0..9.
Details on call control stats
This parameter is a counter for the total number of session instances
that are created on a specific FAP when a regular session setup
attempt is initiated with an unknown RATI
This parameter is a counter for the total number of successful
regular session setup attempts that are initiated with an unknown
RATI
This parameter is a counter for the total number of successfully
established HRPD Sessions that exists on a specific picasso
The number of times a Page Message was sent to the AT to facilitate
the setup of a connection.
The total number of pages succeeded
Total HRPD Connections Opened
This parameter is a counter for the total number of HRPD session
setups that are aborted due to various failure reasons
Number of HRPD packets(bytes) sent from PDSN to AT.
No. of HRPD packets(bytes) sent from AT to PDSN.
This parameter maintains a record of the average session setup time
for all successfully setup sessions on a specific FAP. The average
session setup time is in units of {{units}}.
The average connection setup time in response to a FAP initiated
page. The time is from initiation of Page to the time the connection
is declared open
The number of connection setups that were aborted
Number of packets dropped at Pre-RLP queue due to overflow in forward
direction. This counter will also be written to the performance log.
This object is used in obtaining the QoS Common Performance stats
Number of subscriber QoS profile updates received from the PDSN.
Number of PDSN IP flow update messages received from PDSN.
Number of PDSN IP Flow updates messages that failed per RNC.
Number of QoS setup requests received from the AT.
Number of QoS setup requests received from the AT that the FAP RNC
accepted.
Number of QoS setup requests from the AT that the FAP RNC rejected.
Number of ReservationOnRequest messages received from the AT.
Number of ReservationOnRequest messages received from the AT that the
FAP RNC accepted.
Number of ReservationOnRequest message received from the AT that the
FAP RNC rejected.
Number of ReservationOnRequest message received from the AT that the
FAP RNC failed.
Number of times the FAP RNC sent a FwdReservationOn message to the AT
to activate a forward Reservation.
Number of times the FAP RNC sent a RevReservationOn message to the AT
to activate a reverse Reservation.
Number of ReservationOffRequest message is received from the AT.
Number of ReservationOffRequest messages received from the AT that
the FAP RNC accepted.
Number of ReservationOffRequest messages received from the AT that
the FAP RNC rejected.
Number of times the FAP RNC sent a FwdReservationOff message to the
AT to deactivate a forward Reservation.
Number of times the FAP RNC sent a RevReservationOff message to the
AT to deactivate a reverse Reservation.
Number of QoS release requests received from the AT.
Number of times FAP RNC initiated a connection close in response to
the ReservationOnRequest because it did not have the RAN resources to
satisfy one or more Reservations included in the request.
Stats for HRPD RNC signaling procedures.
Number of HRPD Page requests made after data has flowed on the A10
connection.
Number of HRPD Page requests made before data has flowed on the A10
connection.
Number of HRPD Connection setups attempted before data has flowed on
the A10 connection.
Number of HRPD Connection setups attempted after data has flowed on
the A10 connection.
Number of HRPD Connection setups succeeded before data has flowed on
the A10 connection.
Number of HRPD Connection setups succeeded after data has flowed on
the A10 connection.
The number of HRPD connections that were closed normally before data
has flowed on the A10 connection.
The number of HRPD connections that were closed normally after data
has flowed on the A10 connection.
The total number of HRPD connections closed, normally or abnormally,
data has flowed on the A10 connection.
The total number of HRPD connections closed, normally or abnormally,
after data has flowed on the A10 connection.
Number of HRPD connection close because of RTC loss or No FTC before
data has flowed on the A10 connection
Number of HRPD connection close because of RTC loss or No FTC after
data has flowed on the A10 connection
Total number of successful responses to HRPD page requests that were
received from the AT before the final page timeout and before data
has flowed on the A10 connection.
Total number of successful responses to HRPD page requests that were
received from the AT before the final page timeout and after data has
flowed on the A10 connection.
This statistic counts the number of times the HRPD connection was
dropped before data has flowed on the A10 connection because a
Reverse Traffic Channel (RTC) lost indication was received, and as a
result, no reverse link for the connection were available.
This statistic counts the number of times the HRPD connection was
dropped after data has flowed on the A10 connection because a Reverse
Traffic Channel (RTC) lost indication was received, and as a result,
no reverse link for the connection were available.
This statistic counts the number of HRPD connections that were
dropped before data has flowed on the A10 connection because of
indications that there is no active Forward Traffic Channel (FTC)
available.
This statistic counts the number of HRPD connections that were
dropped after data has flowed on the A10 connection because of
indications that there is no active Forward Traffic Channel (FTC)
available.
This statistic counts the number of HRPD connections that were closed
before data has flowed on the A10 connection because the FAP closed
the open A10 connection.
This statistic counts the number of HRPD connections that were closed
after data has flowed on the A10 connection because the FAP closed
the open A10 connection.
This statistic counts the number of open HRPD connections that were
closed before data has flowed on the A10 connection because the FAP
closed the A10 connection due to internal failures.
This statistic counts the number of open HRPD connections that were
closed after data has flowed on the A10 connection because the FAP
closed the A10 connection due to internal failures.
This statistic counts the number of open HRPD connections that were
closed before data has flowed on the A10 connection because the FAP
closed the A10 connection due to the PDSN unreachablity.
This statistic counts the number of open HRPD connections that were
closed after data has flowed on the A10 connection because the FAP
closed the A10 connection due to the PDSN unreachablity.
This statistic counts the number of open HRPD connections that were
closed before data has flowed on the A10 connection because there was
failure in the A10 connection set-up.
This statistic counts the number of open HRPD connections that were
closed after data has flowed on the A10 connection because there was
failure in the A10 connection set-up.
This statistic counts the number of HRPD connections that were
dropped before data has flowed on the A10 connection because there is
only one pilot available for the connection and a sector down
indication has been received for that pilot.
This statistic counts the number of HRPD connections that were
dropped after data has flowed on the A10 connection because there is
only one pilot available for the connection and a sector down
indication has been received for that pilot.
This statistic counts the number of HRPD connections that were
dropped before data has flowed on the A10 connection due to internal
software errors.
This statistic counts the number of HRPD connections that were
dropped after data has flowed on the A10 connection due to internal
software errors.
This statistic counts the number of HRPD connections that were
dropped after data has flowed on the A10 connection when the FAP
finds a state mismatch between itself andthe AT. Such a mismatch is
found when a connection request message is received from the AT, and
the connection is already open as perceived by the FAP.
This statistic counts the number of connections that were dropped
before the demarcation point when the FAP finds a state mismatch
between itself and the AT. Such a mismatch is found when a connection
request message is received from the AT, and the connection is
already open as perceived by the FAP.
This statistic counts the number of times the HRPD connection was
dropped before data has flowed on the A10 connection at the request
of the Radio Link Protocol. This request is generated when the HDR
Fast Path component finds that the reset acknowledgment timeout has
expired for the connection.
This statistic counts the number of times the HRPD connection was
dropped after data has flowed on the A10 connection at the request of
the Radio Link Protocol. This request is generated when the HDR Fast
Path component finds that the reset acknowledgment timeout has
expired for the connection.
HRPD A12-related service stats.
Flag to enable/Disable HRPD Access Authentication. {{true}} -
Enabled, {{false}} - Disabled.
This object is used in obtaining the Access Authentication related
stats.
Number of AnPppAuthentications attempted by the FAP.
Number of A12 Access Requests Sent from the FAP.
Number of A12 Access Rejects received from the FAP.
Number of A12 Access Accepts received by the FAP.
Number of A12 Access Challenges received by the FAP.
Number of A12 Access Requests retransmitted from the FAP.
Number of A12 Timeout events occurred at the FAP due to
unreachability of the AAA server/ no response from the AAA server.
Number of Malformed A12 Access Response received by the FAP RNC.
Number of A12 Access Response with Bad Authenticator received by the
FAP RNC.
Number of A12 Packet of unknown type received by the FAP RNC.
Number of unknown A12 packets received by the FAP RNC.
Number of A12 packets received from unknown AAA server by the FAP
RNC.
Number of A12 packets failed due to other failure occurences in the
AAA server.
Number of ATs with UnknowMfrCode detected in the FAP RNC.
Number of times sending of A12 packet failed in Tx Path in the FAP
RNC due to "AnPPP Error".
Number of times sending of A12 packet failed in Tx Path in the FAP
RNC due to "No Server Available".
Number of times sending of A12 packet failed in Tx Path in the FAP
RNC due to "internal error".
Number of times sending of A12 packet failed in Tx Path in the FAP
RNC due to "No packet id available".
Number of times sending of A12 packet failed in Tx Path in the FAP
RNC due to "Transmit Error".
Number of A12 server timeouts happened in the FAP RNC.
Number of LCP timeouts happened in the FAP RNC when Enhanced TA
A12Bypass mode is enabled.
Number of CHAP timeouts happened in the FAP RNC when Enhanced TA
A12Bypass mode is enabled.
Number of CHAP Challenge response received from the AT when Enhanced
TA A12Bypass mode is enabled.
Number of times the CHAP NAI received from the AT matches with
A12Bypass List in the FAP RNC when Enhanced TA A12Bypass mode is
enabled.
Number of times Session timeouts occurred due to TA.
Number of times the Access Authenticaiton failed due to Sesion close.
Number of times the Access Authenticaiton succeeded.
This object models the attributes to control the generalized beacon.
The beacon is modeled as a beacon frame composed of multiple beacon
intervals. The beacon frame start is time-aligned to the instant when
1x 80ms paging frames and HRPD control channel frames align (occurs
once every 1.28s).
Allows administrative control of beacon.
Reports operational status of beacon.
If set to {{true}} the HRPD-specific beacon described by
{{object|HRPDBeaconList}} object is enabled. If set to {{false}}, all
HRPD beacons (if any) are contained in the BeaconList object.
Length and periodicity of the beacon frame in {{units}}. Reference -
{{bibref|3GPP2-C.S0005}}.
Maximum transmission power allowed on the FAP Beacon frequencies.
{{param}} is expressed as a range of allowed maximum power levels
with ".." (two periods) between the upper and lower values, i.e.
"<;Pmax_low>..<;Pmax_high>". {{param}} identifies the
limits between which the FAP can self-configure its maximum beacon
transmit power. Self-configuration for maximum beacon transmission
power is controlled by
{{param|.Capabilities.CDMA2000.OneX.SelfConfig.MaxFAPBeaconTxPowerConfig}}
from an availability perspective and
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.MaxFAPBeaconTxPowerSelfConfigEnable}}
from an enabled perspective. <;Pmax_low> and <;Pmax_high>
are measured in dBm and have a range of -40.0 to 20.0 incremented by
0.1 dB.
Maximum beacon transmission power measured in {{units}} currently
used by the FAP on any beacon frequency. Actual values of the maximum
transmission power are -40.0 dBm to 20.0 dBm in steps of 0.1 dB. The
value of {{param}} divided by 10 yields the actual value of the
maximum transmission power.
Percentage of Max Sector Power Used By Paging Channel (expressed in
{{units}}). For example, 93333 means 93.333% of the max sector power.
Maximum transmission power allowed on the dedicated HRPD beacon.
{{param}} is expressed as a range of allowed maximum power levels
with ".." (two periods) between the upper and lower values, i.e.
"<Pmax_low>..<Pmax_high>". MaxHRPDBeaconTxPower
identifies the limits between which the FAP can self-configure its
maximum beacon transmit power. Self-configuration for maximum beacon
transmission power is controlled by
{{param|.Capabilities.CDMA2000.OneX.SelfConfig.MaxFAPBeaconTxPowerConfig}}
from an availability perspective and
{{param|.FAPControl.CDMA2000.OneX.SelfConfig.MaxFAPBeaconTxPowerSelfConfigEnable}}
from an enabled perspective. <Pmax_low> and <Pmax_high>
are measured in dBm and have a range of -40.0 to 20.0 incremented by
0.1 dB.
Maximum beacon transmission power measured in dBm currently used by
the FAP on any beacon frequency. Actual values of the maximum
transmission power are -40.0 dBm to 20.0 in units of {{units}}. The
value of {{param}} divided by 10 yields the actual value of the
maximum transmission power.
Percentage of Max Sector Power Used By Pilot Channel (expressed in
{{units}}). For example, 19950 means 19.950% of total.
Percentage of Max Sector Power Used By Sync Channel (expressed in
{{units}}). For example, 23458 means 23.458% of the max sector power.
Maximum number of entries in the
{{object|.CellConfig.CDMA2000.Beacon.BeaconList.{i}.}} object.
{{numentries}}
Maximum number of entries in the
{{object|.CellConfig.CDMA2000.Beacon.HRPDBeaconList.{i}.}} object.
{{numentries}}
This object models an individual beacon intervals. It may be used to
model both 1x and HRPD beacons with offset from start of beacon frame
measured in 80ms slots.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Instance identifier for this beacon interval. Allowed range is
0..(BeaconListNumberOfEntries-1).
Offset from the start of the beacon frame in 80ms slots.
Duration of this beacon interval in {{units}}.
Determines if this beacon interval shall transmit HRPD (HRPD) or
CDMA2000 1x.{HRPD="0", 1x="1"}.
Band class for this beacon interval.
Channel number for this beacon interval.
{{list}} Each item is a pilot PN offset of the pilot beacon for this
channel in units of 64 PN chips. If this parameter contains more than
one item, then the FAP is expected to select one from the list as the
PilotPN to be used for this channel. If the self-configuration
capability is not to be used, then this parameter SHALL contain only
a single item.
TX power for the beacon interval (in {{units}}). If
self-configuration of the Beacon Tx Power is enabled, then this value
is determined by the FAP.
SID for this beacon interval.
NID for this beacon interval.
PZID for this beacon interval.
This object models individual HRPD beacon intervals where the beacon
start is expressed as a number of HRPD control channel slots from the
start of the beacon frame.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Instance identifier for this beacon interval. Allowed range is
0..(HRPDBeaconListNumberOfEntries-1).
Offset of the current beacon interval from the start of the beacon
frame, in Control Channel cycles. The HRPDBeaconList interval SHOULD
not overlap in time with any beacon interval for the same channel
defined in the BeaconList object.
Start of beacon transmission with respect to the Control Channel
boundary.
Duration of the beacon transmission within a Control Channel cycle,
in slots. Beacon is transmitted starting offset from the CC boundary
for duration. Transmission restarts offset from the next CC boundary,
given that beacon interval spans more than 1 CC cycles.
Number of Control Channel Cycles this beacon interval spans.
Band class for this beacon interval.
Channel number for this beacon interval.
{{list}} Each item is a pilot PN offset of the pilot beacon for this
channel in units of 64 PN chips. If this parameter contains more than
one item, then the FAP is expected to select one from the list as the
PilotPN to be used for this channel. If the self-configuration
capability is not to be used, then this parameter SHALL contain only
a single item.
TX power for the beacon interval. If self-configuration of the HRPD
Beacon Tx Power is enabled, then this value is determined by the FAP.
This object contains parameters relating to REM (Radio Environment
Measurement).
This object contains Radio Environment Measurement parameters for UMTS
FAP.
This object contains parameters relating to radio environment
measurement capabilities for the UMTS system.
FAP REM behavior with respect to ongoing active connections.
Immediately perform REM, even if have active connections or
idle camping UE that MAY be disrupted.
Wait to initiate REM until no CS bearers or PS bearers of
streaming or higher QoS class are assigned.
Enables or disables Radio Environment Measurement during the FAP
start up.
Enable Periodic Radio Environment Measurement on all enabled RAT.
When {{param|ScanPeriodically}} is {{true}}, this value indicates the
interval in {{units}} which REM is performed while the FAP service is
enabled.
An absolute time reference in UTC to determine when the CPE will
initiate the periodic REM. Each REM MUST occur at (or as soon as
possible after) this reference time plus or minus an integer multiple
of the {{param|PeriodicInterval}}. {{param}} is used only to set the
"phase" of the REM. The actual value of {{param}} can be arbitrarily
far into the past or future. For example, if
{{param|PeriodicInterval}} is 86400 (a day) and if {{param}} is set
to UTC midnight on some day (in the past, present, or future) then
periodic REMs will occur every day at UTC midnight. These MUST begin
on the very next midnight, even if {{param}} refers to a day in the
future. The Unknown Time value defined in {{bibref|TR-106a2|Section
3.2}} indicates that no particular time reference is specified. That
is, the CPE MAY locally choose the time reference, and needs only to
adhere to the specified PeriodicInformInterval. If absolute time is
not available to the CPE, its periodic REM behavior MUST be the same
as if {{param}} parameter was set to the Unknown Time value.
{{list}} Each item is a PLMN ID to measure. PLMN ID consists of
Mobile Country Code (MCC) and Mobile Network Code (MNC)
{{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. If {{empty}},
then no specific PLMN ID is provided, meaning that the FAP is
required to scan all available PLMN IDs.
{{list}} Each item is a UMTS Band to measure. Each band is identified
in by a roman numeral {{bibref|3GPP-TS.25.104}}. If {{empty}} then no
specific UMTS band is provided, meaning that the FAP is required to
scan all available bands. The order of the band indicator has no
significance.
{{list}} Each entry is a UARFCN in the DL direction to measure. If
{{empty}}, then no specific UARFCN is provided, meaning that the FAP
is required to scan all UARFCNs that it is aware of.
Specifies the time-out value in {{units}}, measured from the start of
the REM scan, before the REM scan will time out.
Indicates the current status of this scan.
The scan has not been executed and there are no valid scan
results available
Provides more detail when the {{param|ScanStatus}} is either
{{enum|Error|ScanStatus}} or {{enum|Error_TIMEOUT|ScanStatus}}.
The time of the last UMTS system radio environment measurement.
The maximum number of entries available in the
{{object|.REM.UMTS.WCDMA.Cell.{i}.}} table.
{{numentries}}
Table indicating the components of the discovered cells.
Table indicating the RF aspect of the discovered cells.
The UTRA Absolute Radio Frequency Channel Number (UARFCN) in the DL
direction of an FDD mode cell. {{bibref|3GPP-TS.25.433}}
Received signal level in {{units}} of the CPICH channel. (Ref. 3GPP
TS 25.133)
Measured EcNo. (energy per chip to interference power density) in
{{units}} received in the downlink pilot channel. Actual values of
the range are -24.0 {{units}} to 0.0 {{units}} in steps of 0.5
{{units}}. The value of {{param}} divided by 2 yields the actual
value of the range. {{bibref|3GPP-TS.25.133|Section 9.1.2.3}}
This measurement is for Inter-frequency handover evaluation, measured
in total {{units}} in the band.
{{bibref|3GPP-TS.25.133|Section9.1.3}}
Primary scrambling code.
Table containing the system information broadcast in the BCCH logical
channel.
Type of Public Land Mobile Network (PLMN).
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Location Area Code (LAC) as defined in SIB 1
{{bibref|3GPP-TS.25.331}}. The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the LAI (Location Area ID)
{{bibref|3GPP-TS.23.003}}.
Routing Area Code (RAC) as defined in SIB 1
{{bibref|3GPP-TS.25.331}}. The concatenation of PLMN ID (MCC+MNC),
LAC, and RAC uniquely identifies the RAI (Routing Area ID)
{{bibref|3GPP-TS.23.003}}.
Cell Identity as defined in SIB3
{{bibref|3GPP-TS.25.331|Section10.3.2.2}}. {{bibref|3GPP-TS.24.008}}
Primary Common Pilot Channel (CPICH) power level on SIB 5/6
{{bibref|3GPP-TS.25.331|Section10.3.6.55}}.
The CSG-indicator Information Element (IE) in the Master Information
Block reflects the access mode of the CSG cell. It is hence dependent
on the value of {{param|.AccessMgmt.UMTS.AccessMode}}. If {{true}}
the CSG-indicator IE is present, reflecting closed access to the CSG
cell. If {{false}} the CSG-indicator IE is absent, reflecting the
access mode as "not a closed-access". {{bibref|3GPP-TS.25.331|Section
10.2.48.8.1}}
Defines the Closed Subscriber Group of the Access Control List. FAP
broadcasts this CSG ID in SIB3
{{bibref|3GPP-TS.25.331|Section10.3.2.8}} depending on the
AccessMode.
{{list}} Each item is a UTRA Absolute Radio Frequency Channel Number
(UARFCN} in the DL direction dedicated to the CSG cells. {{param}} is
broadcast in SIB 11bis {{bibref|3GPP-TS.25.331|Section
10.2.48.8.14a}}. The corresponding UTRA Absolute Radio Frequency
Channel Number (UARFCN} in the UL direction is derived based on the
fixed offset applicable for the frequency band.
This object contains parameters relating to the Primary Scambling Code
(PSC) split information for the CSG. Defined in SIB3/11bis
{{bibref|3GPP-TS.25.331|Section 10.3.2.8 and 10.3.2.9}}.
The value of this Information Element (IE) multiplied by 8 specifies
the start PSC value of the first PSC range as specified in
{{bibref|3GPP-TS.25.331|Section 8.6.2.4}}.
This Information Element (IE) specifies the number of PSCs reserved
for CSG cells in each PSC range.
If this Information Element (IE) is included, the UE shall calculate
the second PSC range as specified in {{bibref|3GPP-TS.25.331|Section
8.6.2.4}}. If this Information Element (IE) is not included, the UE
shall consider the second PSC range to be not present.
This object defines parameters related to the surface point of the
ellipsoid. {{bibref|3GPP-TS.23.032|Section 5}} It is characterized by
the co-ordinates of an ellipsoid point with altitude, distances, and an
angle of orientation. This information is used to refer to a point on
the Earth's surface, or close to the Earth's surface, with the same
longitude and latitude.
This parameter specifies the latitude of the device's position in
degrees, multiplied by 1 million. The positive value signifies the
direction, north of the equator. The negative value signifies the
direction, south of the equator. Range is from: 90.00.00' South
(-90,000,000) to 90.00.00' North (90,000,000). Example: A latitude of
13.19.43' N would be represented as 13,323,833, derived as
(13*1,000,000)+((19.43*1,000,000)/60). Latitude of 50.00.00' S would
be represented as value -50,000,000. If 0 then SIB15 is not detected
in the specific cell.
This parameter specifies the longitude of the device's position in
degrees, multiplied by 1 million. The positive value signifies the
direction, east of the prime meridian. The negative value signifies
the direction, west of the prime meridian. Range is from: 180.00.00'
West (-180,000,000) to 180.00.00' East (180,000,000). Example: A
longitude of 13.19.43' E would be represented as 13,323,833, derived
as (13*1,000,000)+((19.43*1,000,000)/60). A longitude of 50.00'0'' W
would be represented as value -50,000,000. If 0 then SIB15 is not
detected in the specific cell.
The uncertainty r is derived from the "uncertainty code" k by r = 10
x ( 1.1 <power> (k-1) ) {{bibref|3GPP-TS.23.032|Section6.2}}
The uncertainty r is derived from the "uncertainty code" k by r = 10
x ( 1.1 <power> (k-1) ) {{bibref|3GPP-TS.23.032|Section6.2}}
The Information Element (IE) value 'N' is derived by this formula: 2N
<= a < 2(N+1) Where 'a' is the orientation in degrees (0..179).
The degree of confidence in the ellipsoid's points expressed in
{{units}}.
This object contains parameters relating to GSM REM capabilities.
FAP REM behavior with respect to ongoing active connections.
Immediately perform REM, even if have active connections or
idle camping UE that MAY be disrupted.
Wait to initiate REM until no CS bearers or PS bearers of
streaming or higher QoS class are assigned.
Enables or disables Radio Environment Measurement during the FAP
start up.
Enable Periodic Radio Environment Measurement on all enabled RAT.
When {{param|ScanPeriodically}} is {{true}}, this value indicates the
interval in {{units}} which REM is performed while the FAP service is
enabled.
An absolute time reference in UTC to determine when the CPE will
initiate the periodic REM. Each REM MUST occur at (or as soon as
possible after) this reference time plus or minus an integer multiple
of the {{param|PeriodicInterval}}. {{param}} is used only to set the
"phase" of the REM. The actual value of {{param}} can be arbitrarily
far into the past or future. For example, if
{{param|PeriodicInterval}} is 86400 (a day) and if {{param}} is set
to UTC midnight on some day (in the past, present, or future) then
periodic REMs will occur every day at UTC midnight. These MUST begin
on the very next midnight, even if {{param}} refers to a day in the
future. The Unknown Time value defined in {{bibref|TR-106a2|Section
3.2}} indicates that no particular time reference is specified. That
is, the CPE MAY locally choose the time reference, and needs only to
adhere to the specified PeriodicInformInterval. If absolute time is
not available to the CPE, its periodic REM behavior MUST be the same
as if {{param}} parameter was set to the Unknown Time value.
{{list}} Each item is a PLMNID. PLMN ID consists of Mobile Country
Code (MCC) and Mobile Network Code (MNC) {{bibref|3GPP-TS.23.003}},
{{bibref|3GPP-TS.24.008}}. Mobile Country Code consists of three
digits and uniquely identifies the country of domicile of the
subscriber. Mobile Network Code consists of two or three digits and
identifies the Home PLMN within a country. For a 2-digit MNC the
total string length of the PLMNID is 5. If {{empty}} no specific PLMN
ID is provided, meaning that the FAP is required to report all
available PLMN IDs. If a list is provided, the FAP is expected to
limit the REM measurement to the PLMN(s) specified in this list only
and ignore others even if they are detected.
{{list}} Each item is a GSM Band to measure. {{enum}} If {{empty}}
then no specific GSM band is provided, meaning that the FAP MUST scan
all bands. If a list is provided, the FAP is expected to limit the
REM measurement to the band(s) specified in this list only and ignore
others even if they are detected.
{{list}} Each item is a GSM ARFCN to measure. If {{empty}} then no
specific ARFCN is provided, meaning that the FAP is required to scan
all ARFCNs. If a list is provided, the FAP is expected to limit the
REM measurement to the ARFCN(s) specified in this list only and
ignore others even if they are detected.
Specifies the time-out value in {{units}}, measured from the start of
the REM scan, before the REM scan will time out.
Indicates the current status of this scan.
The scan has not been executed and there are no valid scan
results available
Provides more detail when the {{param|ScanStatus}} is either
{{enum|Error|ScanStatus}} or {{enum|Error_TIMEOUT|ScanStatus}}.
The time of the last GSM radio environment measurement.
The maximum number of entries allowed in the
{{object|.REM.UMTS.GSM.Cell.{i}.}} table.
{{numentries}}
Table indicating the components of the discovered cells.
Indicates how to interpret the BCCH ARFCN.
Absolute Radio Frequency Channel Number (ARFCN)
{{bibref|3GPP-TS.05.05}}.
Base Station Identity Code {{bibref|3GPP-TS.03.03}}.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of the PLMNID is 5.
Location Area Code (LAC) as defined in SIB1
{{bibref|3GPP-TS.25.331}}. The concatenation of PLMN ID (MCC+MNC) and
LAC uniquely identifies the LAI (Location Area ID)
{{bibref|3GPP-TS.23.003}}.
Routing Area Code (RAC) consists of up to 3 numerical characters. The
concatenation of PLMN ID (MCC+MNC), LAC, and RAC uniquely identifies
the Routing Area ID (RAI). {{bibref|3GPP-TS.23.003|Section 4.2}}
{{bibref|3GPP-TS.25.413|Section 9.2.3.7}}
Cell Identity. {{bibref|3GPP-TS.25.331|Section 10.3.2.2}}
Received signal level in {{units}} of the BCCH carrier.
This object contains parameters relating to radio environment
measurement capabilities for the LTE system.
FAP REM behavior with respect to ongoing active connections.
Immediately perform REM, even if have active connections or
idle camping UE that MAY be disrupted.
Wait to initiate REM until no CS bearers or PS bearers of
streaming or higher QoS class are assigned.
Enables or disables Radio Environment Measurement during the FAP
start up.
Enable Periodic Radio Environment Measurement on LTE EUTRAN bands.
When {{param|ScanPeriodically}} is {{true}}, this value indicates the
interval in {{units}} which REM is performed while the FAP service is
enabled.
An absolute time reference in UTC to determine when the CPE will
initiate the periodic REM. Each REM MUST occur at (or as soon as
possible after) this reference time plus or minus an integer multiple
of the {{param|PeriodicInterval}}. {{param}} is used only to set the
"phase" of the REM. The actual value of {{param}} can be arbitrarily
far into the past or future. For example, if
{{param|PeriodicInterval}} is 86400 (a day) and if {{param}} is set
to UTC midnight on some day (in the past, present, or future) then
periodic REMs will occur every day at UTC midnight. These MUST begin
on the very next midnight, even if {{param}} refers to a day in the
future. The Unknown Time value defined in {{bibref|TR-106a2|Section
3.2}} indicates that no particular time reference is specified. That
is, the CPE MAY locally choose the time reference, and needs only to
adhere to the specified PeriodicInformInterval. If absolute time is
not available to the CPE, its periodic REM behavior MUST be the same
as if {{param}} parameter was set to the Unknown Time value.
{{list}} Each item is a PLMN ID to measure. PLMN ID consists of
Mobile Country Code (MCC) and Mobile Network Code (MNC)
{{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. If {{empty}},
then no specific PLMN ID is provided, meaning that the FAP is
required to scan all available PLMN IDs.
{{list}} Each item is a LTE Band to measure. Corresponds to frequency
band indicator defined in {{bibref|3GPP-TS.36.101|Table 5.5-1}}. If
{{empty}} then no specific LTE band is provided, meaning that the FAP
is required to scan all available bands. The order of the band
indicator has no significance.
{{list}} Each entry is a EUTRA ARFCN in the DL direction to measure.
Corrsponds to the parameter NDL in {{bibref|3GPP-TS.36.101|Section
5.7.3}}. If {{empty}}, then no specific EUTRA ARFCN is provided,
meaning that the FAP is required to scan all ARFCNs that it is aware
of.
Specifies the time-out value in {{units}}, measured from the start of
the REM scan, before the REM scan will time out.
Indicates the current status of this scan.
The scan has not been executed and there are no valid scan
results available
Provides more detail when the {{param|ScanStatus}} is either
{{enum|Error|ScanStatus}} or {{enum|Error_TIMEOUT|ScanStatus}}.
The time of the last LTE system radio environment measurement.
The maximum number of entries available in the
{{object|.REM.LTE.Cell.{i}.}} table.
{{numentries}}
The maximum number of entries available in the
{{object|.REM.LTE.CarrierMeas.{i}.}} table.
{{numentries}}
Table indicating the components of the discovered cells.
Table indicating the RF aspect of the discovered cells.
Indicates the ARFCN of this carrier frequency. Corresponds to
parameter dl-CarrierFreq in SIB5 in {{bibref|3GPP-TS.36.331|Section
6.3.1}}, and parameter NDL in {{bibref|3GPP-TS.36.101|Section
5.7.3}}.
Physical cell ID of the detected EUTRAN cell, as specified in
{{bibref|3GPP-TS.36.101|Section 5.6}}.
Received RSRP level of the detected EUTRA cell, specified in
{{units}}, as specified in {{bibref|3GPP-TS.36.214|Section 5.1.1}}.
The reporting range is specified in {{bibref|3GPP-TS.36.133|Section
9.1.4}}.
Received RSRQ level of the detected EUTRA cell, specified in
{{units}}, as specified in {{bibref|3GPP-TS.36.214|Section 5.1.3}}.
Actual measured values range between -24.0 {{units}} and 0.0
{{units}} in steps of 0.5 {{units}}. The value of {{param}} divided
by 10 yields the actual measured value. Only values in multiple of 5
are valid.
E-UTRA Carrier Received Signal Strength Indicator (RSSI), specified
in {{units}}, as specified in {{bibref|3GPP-TS.36.214|Section
5.1.3}}. It comprises the linear average of the total received power
(in [W]) observed only in OFDM symbols containing reference symbols
for antenna port 0, in the measurement bandwidth, over N number of
resource blocks by the UE from all sources, including co-channel
serving and non-serving cells, adjacent channel interference, thermal
noise etc.
Table containing the system information broadcast in the BCCH logical
channel.
Downlink transmission bandwidth, specified in number of {{units}}.
Corresponds to parameter dl_Bandwidth in Master Information Block in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}. and to parameter NRB in
{{bibref|3GPP-TS.36.101|Table 5.6-1}}.
Uplink transmission bandwidth, specified in number of {{units}}.
Corresponds to parameter ul_Bandwidth in SIB2 in
{{bibref|3GPP-TS.36.331|Section 6.3.1}}. and to parameter NRB in
{{bibref|3GPP-TS.36.101|Table 5.6-1}}.
The downlink reference-signal transmit power, specified in {{units}}.
Defined as the linear average over the power contributions (in W) of
all resource elements that carry cell-specific reference signals
within the operating system bandwidth. Corresponds to parameter
referenceSignalPower in SIB4 as a part of PDSCH-Config IE in
{{bibref|3GPP-TS.36.331|Section 6.3.2}}.
Tracking Area Code that is common for all the PLMNs listed.
Corresponds to trackingAreaCode as specified in SIB1 in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}.
Defines the cell identify, defines as a 28-bit binary number.
Corresponds to cellIdentity as specified in SIB1 in
{{bibref|3GPP-TS.36.331|Section 6.2.2 and Section 6.3.4}}.
Indicates whether the cell is barred or not. If {{true}}, the cell is
barred. If {{false}}, the cell is not barred. Corresponds to
cellBarred as specified in SIB1 in {{bibref|3GPP-TS.36.331|Section
6.2.2}} and {{bibref|3GPP-TS.36.304}}.
Indicates whether CSG is used in this cell or not. If {{true}}, the
UE is only allowed to access the cell if the CSG identity matches an
entry in the allowed CSG list that the UE has stored. Corresponds to
csg-Indication as specified in SIB1 in
{{bibref|3GPP-TS.36.331|Section 6.2.2}}.
Defines the CSG ID value if {{param|CSGIndication}} parameter
indicates that CSG is used in this cell. Corresponds to csg-Identity
as specified in SIB1 in {{bibref|3GPP-TS.36.331|Section 6.2.2}}.
The maximum number of entries available in the
{{object|.REM.LTE.Cell.{i}.BCCH.PLMNList.{i}.}} table.
{{numentries}}
Table containing the PLMN list in the system information broadcast in
the BCCH logical channel. Correspnds to plmn-IdentityList as specified
in SIB1 in {{bibref|3GPP-TS.36.331|Section 6.2.2}}. Each instance in
this object is a PLMN-IdentityInfo which consists of plmn-Identity and
cellReservedForOperatorUse IEs.
PLMN ID consists of Mobile Country Code (MCC) and Mobile Network Code
(MNC) {{bibref|3GPP-TS.23.003}}, {{bibref|3GPP-TS.24.008}}. Mobile
Country Code consists of three digits and uniquely identifies the
country of domicile of the subscriber. Mobile Network Code consists
of two or three digits and identifies the Home PLMN within a country.
For a 2-digit MNC the total string length of {{param}} is 5.
Indicates whether the cell is reserved for operator use or not. If
{{true}}, it is reserved. If {{false}}, it is not reserved.
Corresponds to "reserved" "notReserved" respectively as defined in
PLMN-IdentityInfo in {{bibref|3GPP-TS.36.331|Section 6.2.2}}.
Table indicating the measurement of the discovered carrier. The
information stored in this object is strictly in the physical layer
level and may not necessarily be associated with any particular E-UTRAN
cell (e.g. interference level generated by sources other than E-UTRAN
cell).
Enables or disables the CarrierMeas entry.
{{datatype|expand}}
Lower bound of the EUTRA ARFCN as specified in
{{bibref|3GPP-TS.36.101|Section 5.7.3}} in the DL direction that is
requested to measure. Unit in {{units}}.
Number of {{units}} in DL direction, as specified in
{{bibref|3GPP-TS.36.101|Section 5.6}}, that is requested to measure.
The range bounded by {{param|CarrierARFCNDL}} as the lower bound and
the value of ({{param|CarrierARFCNDL}} + {{param}}) as the upper
bound expresses the total carrier frequency range to be measured.
Received Signal Strength Indicator (RSSI) as specified in
{{bibref|3GPP-TS.36.214|Sec 5.1.3}} over the carrier frequency range
from {{param|CarrierARFCNDL}} as the lower bound and the value of
({{param|CarrierARFCNDL}} + {{param|CarrierChWidth}}) as the upper
bound.
This object contains parameters relating to radio environment
measurement capabilities for the CDMA2000 system.
FAP REM behavior with respect to ongoing active connections. {{enum}}
Immediately perform REM, even if have active connections or
idle camping AT that may be disrupted.
Wait to initiate REM until no CS bearers or PS bearers of
streaming or higher QoS class are assigned.
Enables or disables Radio Environment Measurement during the FAP
start up.
Directs FAP to perform radio environment measurements immediately
(but respecting the setting of {{param|InServiceHandling}}) and
report back. After performing the action, the FAP resets the ScanNow
value to "0" ({{false}}).
Time in {{units}} within which the action should be performed by the
FAP. Only applies if {{param|InServiceHandling}} is set to Delayed.
Enables periodic reporting of radio environment measurements.
When {{param|ScanPeriodically}} is {{true}}, this value indicates the
interval in {{units}} which REM is performed while the FAP service is
enabled.
An absolute time reference in UTC to determine when the CPE will
initiate the periodic REM. Each REM MUST occur at (or as soon as
possible after) this reference time plus or minus an integer multiple
of the {{param|PeriodicInterval}}. {{param}} is used only to set the
"phase" of the REM. The actual value of {{param}} can be arbitrarily
far into the past or future. For example, if
{{param|PeriodicInterval}} is 86400 (a day) and if {{param}} is set
to UTC midnight on some day (in the past, present, or future) then
periodic REMs will occur every day at UTC midnight. These MUST begin
on the very next midnight, even if {{param}} refers to a day in the
future. The Unknown Time value defined in {{bibref|TR-106a2|Section
3.2}} indicates that no particular time reference is specified. That
is, the CPE MAY locally choose the time reference, and needs only to
adhere to the specified PeriodicInformInterval. If absolute time is
not available to the CPE, its periodic REM behavior MUST be the same
as if {{param}} parameter was set to the Unknown Time value.
If {{param}} is set to {{enum|All}}, the FAP shall report the
overheads from the sectors as well.
Specifies the time-out value in {{units}}, measured from the start of
the REM scan, before the REM scan will time out.
Indicates the current status of this scan.
Provides more detail when the {{param|ScanStatus}} is either "Error"
or "Error_TIMEOUT".
The time of the last system radio environment measurement.
This object contains parameters relating to radio environment
measurement capabilities for the 1x system.
The maximum number of entries available in the
{{object|.REM.CDMA2000.OneX.Cell.{i}.}} table.
{{numentries}}
The maximum number of entries available in the
{{object|.REM.CDMA2000.OneX.Channel.{i}.}} table.
{{numentries}}
REM specific configuration and reporting.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Config parameter to set band class. Reference -
{{bibref|3GPP2-C.S0057}}, Band Class Specification for CDMA2000
Spread Spectrum Systems.
The Radio Frequency Channel Number (RFCN) in the forward direction.
{{list}} Each item is a (single value) PN offset in units of 64 PN
chips or PNrange expressed in the following format:
<Start-value>".."<End-value>:<Increment> If an
empty string, then no specific PNList is provided, meaning that the
FAP is required to pick a PN list to scan on its own.
Table indicating the components of the discovered cells.
RF REM results for each detected cell.
CDMA band for the reported cell.
The Radio Frequency Channel Number (RFCN) in the FL direction for the
reported cell.
The total received power spectral density in {{units}}, including
signal and interference.
Pilot PN Offset (in units of {{units}}).
Pilot PN phase in {{units}}.
The strength estimate of the received pilot energy per chip, Ecp, in
{{units}}.
The strength estimate of the received pilot energy per chip, Ecp, to
total received spectral density, Io (signal and noise) in {{units}}.
If set to {{true}}, the overhead messages for this particular cell is
included in {{object|.REM.CDMA2000.OneX.Cell.{i}.ControlChannel.}}.
Table containing information broadcast on control channel.
System identification. Refer to {{bibref|3GPP2-C.S0005}}.
Network identification. Refer to {{bibref|3GPP2-C.S0005}}.
Registration Zone. Refer to {{bibref|3GPP2-C.S0005}}.
Basestation latitude. Refer to {{bibref|3GPP2-C.S0005}}.
Basestation longtitude. Refer to {{bibref|3GPP2-C.S0005}}.
Mobile Country Code. Refer to {{bibref|3GPP2-C.S0005}}.
the 11th and 12th digits of IMSI, i.e., Mobile Network Code. Refer to
{{bibref|3GPP2-C.S0005}}.
Basestation identification. Refer to {{bibref|3GPP2-C.S0005}}.
Access Point Identification. Set to empty string if not available.
Refer to {{bibref|3GPP2-C.S0005}}.
Access Point Identification Mask. Set to zero if not available. Refer
to {{bibref|3GPP2-C.S0005}}.
Access Point Identification Text. Set to empty string if not
available. Refer to {{bibref|3GPP2-C.S0005}}.
This object contains parameters relating to radio environment
measurement capabilities for the HRPD system.
The maximum number of entries available in the
{{object|.REM.CDMA2000.HRPD.Cell.{i}.}} table.
{{numentries}}
The maximum number of entries in
{{object|.REM.CDMA2000.HRPD.Channel.{i}.}} table.
{{numentries}}
REM specific configuration and reporting.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Config parameter to set band class. Reference -
{{bibref|3GPP2-C.S0057}}, Band Class Specification for CDMA2000
Spread Spectrum Systems.
The Radio Frequency Channel Number (RFCN) in the FL direction.
{{list}} Each item is a (single value) PN offset in units of 64 PN
chips or PNrange expressed in the following format:
<Start-value>".."<End-value>:<Increment>. If an
empty string, then no specific PNList is provided, meaning that the
FAP is required to pick a PN list to scan on its own.
Table indicating the components of the discovered cells.
RF REM results for each detected cell.
CDMA band for the reported cell.
The Radio Frequency Channel Number (RFCN) in the FL direction for the
reported cell.
The total received power spectral density in {{units}}, including
signal and interference.
Pilot PN Offset (in units of {{units}}).
Pilot PN phase in {{units}}.
The strength estimate of the received pilot energy per chip in
{{units}}.
The strength estimate of the received pilot energy per chip, Ecp, to
total received spectral density, Io (signal and noise) in {{units}}.
If set to {{true}}, the overhead messages for this particular cell is
included in {{object|.REM.CDMA2000.HRPD.Cell.{i}.ControlChannel.}}.
Table containing information braodcast on control channel.
The color code of the measured sector as defined in
{{bibref|3GPP2-C.S0024}}.
The sector ID of the measured sector as defined in
{{bibref|3GPP2-C.S0024}}.
The length of the subnet mask in {{units}} for the measured sector as
defined in {{bibref|3GPP2-C.S0024}}.
The country code of the measured sector as defined in
{{bibref|3GPP2-C.S0024}}.
The reported lattitude of the cell in units of {{units}}, expressed
as a two's complement signed number with positive numbers signifying
North latitudes in the range -1296000 to 1296000 inclusive
corresponding to a range of -90 to +90) Refer to
{{bibref|3GPP2-C.S0024}}.
The reported longitude of the cell in units of {{units}}, expressed
as a two's complement signed number with positive numbers signifying
East longitude in the range -2592000 to 2592000 inclusive
(corresponding to a range of -180 to +180). Refer to
{{bibref|3GPP2-C.S0024}}.
Parameters for controlling CDMA2000 system timing derived from macro
system sniffing.
This is the Admin State of Macro Timing. Lock means MacroTiming
feature is Enabled. Unlock means MacroTiming feature is disabled. 0 -
Lock (Enabled), 1 - Unlock (Disabled).
Channel number of Macro Base Station currently used for MacroTiming.
BandClass of Macro Base Station currently used for MacroTiming.
{{list}} Each item is a (single value) PN offset in units of 64 PN
chips of a Macro Base Station currently used for MacroTiming.
This parameter indicates the timing source for the FAP: 0 - GPS 1 -
Macro Timing The other read-only parameters in this object only have
valid values when timingsource is set to 1.
{{numentries}}
Object used to configure list of channels to be used for Macto Timing.
Enables or disables the {{object}} entry.
{{datatype|expand}}
Air interface type of the configured Band class and Channel. 0 - 1x,
1 - HRPD.
Bandclass of the Macro timing channel.
Macro timing acquisition channel.
Priority of the channle to use for acquisition. FAP should prioritize
lower values over higher.
{{list}} Each item is a (single value) PN offset in units of 64 PN
chips or PNrange expressed in the following format:
<Start-value>".."<End-value>:<Increment>
If an empty string, then no specific PNList is provided, meaning that
the FAP is required to pick a PN list to scan on its own.
This object contains parameters relating to the transport.
This object contains parameters relating to SIP as a transport
protocol. SIP is defined in {{bibref|RFC3261}}.
Enables or disables the whole SIP object and allows the setup or
release of SIP associations and their related streams.
This object models SIP Femtocell Convergence Server (FCS) parameters.
The request URI for MESSAGE method sent to Femtocell Convergence
Server (FCS). The string MUST contain a URI as defined in
{{bibref|RFC3986}}. The device MUST support SIP URI and MAY support
other URI schemes.
The request URI for Outgoing Proxy. The string MUST contain a URI as
defined in {{bibref|RFC3986}}. The device MUST support SIP URI and
MAY support other URI schemes.
This string will be populated as the value for P-Access-Network-Info
header. This header is generated by the device. See
{{bibref|3GPP2-X.S0059}} and {{bibref|RFC3455}}.
The FQDN or IP Address representing the Home Domain of the device.
The request URI for REGISTER will be formed by prefixing "sip:" to
this value.
The "IP Multimedia Public User" (IMPU) Identity.
The "IP Multimedia Private Identity" (IMPI). This value is ignored
when {{param|SIPAuthMethod}} is set to {{enum|TNA|SIPAuthMethod}}.
Password to Authenticate the IMS core. This value is ignored when
{{param|SIPAuthMethod}} is set to {{enum|TNA|SIPAuthMethod}}.
Represents the SIP authentication mechanisms supported by this
device.
As defined in {{bibref|3GPP2-S.S0132}}.
Digest Authentication as defined in {{bibref|RFC3261}}.
Represents the authentication method used by this device for SIP
registration. If value is {{enum|SIPDigest}}, the
{{param|SIPPassword}} MUST not be {{empty}}. If value is
{{enum|TNA}}, {{param|SIPPassword}} and {{param|IMPI}} are ignored.
Local port number for initiating SIP traffic.
The low limit of port number for originating and receiving RTP/RTCP
traffic.
The high limit of port number for originating and receiving RTP/RTCP
traffic.
SIP registration expiry value, as defined in {{bibref|RFC3261}}.
SIP session timer expiry value, in {{units}}, as defined in
{{bibref|RFC4028}}.
Indicates the dialed digit pattern matching strings used to determine
if the call is an emergency call that MAY bypass access control and
receive priority treatment.
Value of SIP timer T1, in {{units}}, as defined in
{{bibref|RFC3261}}.
Value of SIP timer T2, in {{units}}, as defined in
{{bibref|RFC3261}}.
Value of SIP timer T4, in {{units}}, as defined in
{{bibref|RFC3261}}.
This value specifies how much time to wait, in {{units}}, before time
out on location update accept/reject. See {{bibref|3GPP2-A.S0014}}.
This object contains parameters relating to SCTP as a transport
protocol. SCTP is defined in {{bibref|RFC4960}} and {{bibref|RFC3873}}.
Enables or disables the whole SCTP object and allows the setup or
release of SCTP associations and their related streams.
Heartbeat interval in {{units}}.
Maximum number of consecutive retransmissions to a peer before an
endpoint considers that the peer is unreachable and closes the
association.
Number of retransmission per connection-attempt.
Maximum retransmission per destination address.
Initial value for Retransmit timeout in {{units}}. A retransmission
time value of zero means immediate retransmission.
Maximum value for Retransmit timeout in {{units}}. A retransmission
time value of zero means immediate retransmission.
Minimum value for Retransmit timeout in {{units}}. A retransmission
time value of zero means immediate retransmission. The value of this
parameter MUST be lower than or equal to {{param|RTOMax}}.
Valid cookie life in the 4-way start-up handshake procedure in
{{units}}.
The number of correctly formed SCTP packets, including the proper
checksum, but for which the receiver was unable to identify an
appropriate association.
The number of SCTP packets received with an invalid checksum.
The number of SCTP control chunks sent (retransmissions are not
included).
The number of SCTP ordered data chunks sent (retransmissions are not
included).
The number of SCTP unordered chunks (data chunks in which the U bit
is set to 1) sent (retransmissions are not included).
The number of SCTP control chunks received (no duplicate chunks
included).
The number of SCTP ordered data chunks received (no duplicate chunks
included).
The number of SCTP unordered chunks (data chunks in which the U bit
is set to 1) received (no duplicate chunks included).
The number of user messages that have been sent fragmented.
The number of user messages that have been received fragmented and
submitted to the reassembly process.
The number of SCTP packets sent. Retransmitted DATA chunks are
included.
The number of SCTP packets received. Duplicates are included.
The time of the last discontinuity.
{{numentries}}
SCTP Association Table
The status of this SCTP association entry.
The Association is active.
The Association establishment is in progress.
The Association graceful shutdown is in progress.
Indicates a locally defined error condition.
The primary IP address of the peer SCTP association entity.
The local SCTP port number used for this SCTP association.
The number of Inbound Streams according to the negotiation at
association start-up.
The number of Outbound Streams according to the negotiation at
association start-up.
The start Time for the present SCTP association.
The time of the last discontinuity.
This object contains parameters relating to Real Time Transport using
RTP.
Enable or disable RTCP.
The number of sent RTP packets.
The number of received RTP packets.
Total number of RTP payload bytes sent.
Total number of RTP payload bytes received.
This object contains performances relating to Real Time Transport using
RTP.
The number of Lost RTP packets in reception.
The number of Far End Lost RTP packets.
Total number of times the receive jitter buffer has overrun.
Total number of times the receive jitter buffer has underrun for a
CS-domain RAB.
The mean Round Trip Time in {{units}} as computed by the source.
{{bibref|RFC3550}}
The maximum Round Trip Time in {{units}} as computed by the source.
{{bibref|RFC3550}}
The mean receive jitter in {{units}} as computed by the source.
{{bibref|RFC3550}}
The maximum receive jitter in {{units}} as computed by the source.
{{bibref|RFC3550}}
The mean far end jitter in {{units}} as computed by the source.
{{bibref|RFC3550}}
The maximum far end jitter in {{units}} as computed by the source.
{{bibref|RFC3550}}
This object contains parameters relating to Packet Transport using
GTP-U.
Echo interval in {{units}}. An Echo interval value of zero means echo
is disabled.
The number of sent GTP-U packets.
The number of received GTP-U packets.
This object contains parameters relating to Security.
{{numentries}}
Shared Secret Table. This table gathers information about all types of
shared secret-based credentials (UICC).
Enable or disable this Shared Secret entry
The type of this Shared Secret entry.
The status of this Shared Secret entry.
This value MAY be used by the CPE to indicate a locally defined
error condition.
The UICC Card Identifier (UICCID), only numeric values are allowed.
{{bibref|ITU-E.118}}