Cisco Cisco ASR 5000
Serving GPRS Support Node (SGSN) Overview
Features and Functionality ▀
SGSN Administration Guide, StarOS Release 18 ▄
In addition, support for EGTPC schema bulk statistics is implemented to provide information on communication
between the S4-SGSN and the EPC S-GW over the S4 interface.
between the S4-SGSN and the EPC S-GW over the S4 interface.
S13’ Interface Support
In addition to the MAP-based Gf interface, the S4-SGSN supports the Diameter-based S13’ (S13 prime) interface
towards the equipment identify registry. The S13’ interface support enables operators to consolidate the EIR functions
into a single node, which increases operational efficiency. S13’ interface support is a license-enabled feature.
towards the equipment identify registry. The S13’ interface support enables operators to consolidate the EIR functions
into a single node, which increases operational efficiency. S13’ interface support is a license-enabled feature.
The S13’ interface enables the S4-SGSN to perform the ME Identity Check procedure to validate the IMEI with the
EIR. The S4-SGSN selects Gf or S13’ interface based on which interface is configured and the type of service (MAP or
HSS) is associated with the SGSN and/or the GPRS service. If both services are associated, then the S4-SGSN will
select the appropriate interface based on the following sequence:
EIR. The S4-SGSN selects Gf or S13’ interface based on which interface is configured and the type of service (MAP or
HSS) is associated with the SGSN and/or the GPRS service. If both services are associated, then the S4-SGSN will
select the appropriate interface based on the following sequence:
1. An operator policy preference is configured for Gf or S13’
2. If no operator policy preference is set, then by default the S4-SGSN uses the Gf interface
2. If no operator policy preference is set, then by default the S4-SGSN uses the Gf interface
By default, the IMSI is sent to the EIR as part of the IMEI Check procedure over the S13’ interface.
Idle Mode Signaling Reduction
The Idle mode signaling reduction (ISR) feature on the S4-SGSN provides a mechanism to optimize and/or reduce
signaling load during inter-RAT cell-reselection in idle mode (that is, in the ECM-IDLE, PMM-IDLE, and GPRS-
STANDBY states). It is a mechanism that allows the UE to remain simultaneously registered in a UTRAN/GERAN
Routing Area (RA) and an E-UTRAN Tracking Area (TA) list. This allows the UE to make cell reselections between E-
UTRAN and UTRAN/GERAN without having to send any TAU or RAU requests, as long as the UE remains within the
registered RA and TA list.
signaling load during inter-RAT cell-reselection in idle mode (that is, in the ECM-IDLE, PMM-IDLE, and GPRS-
STANDBY states). It is a mechanism that allows the UE to remain simultaneously registered in a UTRAN/GERAN
Routing Area (RA) and an E-UTRAN Tracking Area (TA) list. This allows the UE to make cell reselections between E-
UTRAN and UTRAN/GERAN without having to send any TAU or RAU requests, as long as the UE remains within the
registered RA and TA list.
ISR is a feature that reduces the mobility signalling and improves the battery life of UEs. Also reduces the unnecessary
signalling with the core network nodes and air interface. This is important especially in initial deployments when E-
UTRAN coverage will be limited and inter-RAT changes will be frequent.
signalling with the core network nodes and air interface. This is important especially in initial deployments when E-
UTRAN coverage will be limited and inter-RAT changes will be frequent.
The benefit of the ISR functionality comes at the cost of more complex paging procedures for UEs, which must be
paged on both the registered RA and all registered TAs. The HSS also must maintain two PS registrations (one from the
MME and another from the SGSN).
paged on both the registered RA and all registered TAs. The HSS also must maintain two PS registrations (one from the
MME and another from the SGSN).
ISR support for 3G subscribers was introduced in release 14.0. ISR support for 2G subscribers is available in 15.0 and
later releases.
later releases.
ISR is not supported on the Gn/Gp SGSN.
For a detailed description of this feature, refer to the Idle Mode Signaling Reduction on the S4-SGSN chapter in this
guide.
guide.
Important:
ISR is a license enabled feature. Contact your Cisco representative for details on licensing
information.
ISR with Circuit Switched Fallback
Circuit-Switched Fallback (CSFB) is an alternative solution to using IMS and SRVCC to provide voice services to
users of LTE. The IMS is not part of the solution, and voice calls are never served over LTE. Instead, the CSFB relies
on a temporary inter-system that switches between LTE and a system where circuit-switched voice calls can be served.
users of LTE. The IMS is not part of the solution, and voice calls are never served over LTE. Instead, the CSFB relies
on a temporary inter-system that switches between LTE and a system where circuit-switched voice calls can be served.