Content for TS 29.007 Word version: 18.0.0
11 Interworking between A/Gb mode MSC and Iu mode MSC
11.0 Signalling issues
11.1 Handover to A/Gb mode MSC
11.2 Handover from A/Gb mode MSC to UTRAN Iu mode MSC
11.3 Handover from A/Gb mode MSC to GERAN Iu mode MSC
11.4 Handover within Iu mode PLMNs
11.5 Handover for 56kbit/s
11a Transport Protocols
11a.1 Core Network
11a.2 NT services
11a.3 T services
12 Frame Synchronization
12.1 Initial frame synchronization
12.2 Action on loss of frame synchronization
13 Call Clearing
14 The A-TRAU Framing Protocols
14.1 A-TRAU' Protocol
14.2 A-TRAU' Protocol
15 RTP Payload Type Negotiation for Data Calls within a SIP-I based CS Core Network
15.1 RTP payload type negotiation at access side of IWF
15.2 RTP payload type negotiation at network side of IWF
11 Interworking between A/Gb mode MSC and Iu mode MSC p. 78
11.0 Signalling issues |R6| p. 78
11.0.1 Loss of BC Information during Handover from A/Gb mode to UTRAN Iu mode p. 78
11.0.2 Handover from UTRAN Iu mode to A/Gb mode p. 79
11.0.3 Loss of BC Information during Handover from A/Gb mode to GERAN Iu mode p. 79
11.0.4 Handover from GERAN Iu mode to A/Gb mode p. 79
11.0.5 Handover from UTRAN Iu mode to GERAN Iu mode p. 79
11.0.6 Handover from GERAN Iu mode to UTRAN Iu mode p. 80
11.1 Handover to A/Gb mode MSC p. 80
11.2 Handover from A/Gb mode MSC to UTRAN Iu mode MSC p. 80
11.3 Handover from A/Gb mode MSC to GERAN Iu mode MSC p. 81
11.3.1 User plane for transparent services |R5| p. 81
11.3.2 User plane for non-transparent services |R5| p. 81
11.4 Handover within Iu mode PLMNs p. 81
11.5 Handover for 56kbit/s |R4| p. 82
11.6 Void
11a Transport Protocols |R6| p. 83
11a.1 Core Network p. 83
11a.1.0 Overview |R8| p. 83
11a.1.1 Void
11a.1.2 Transport beyond the IWF p. 84
11a.1.2.1 UDI and RDI p. 84
11a.1.2.2 Modem p. 84
11a.1.3 Transport on the access side of the IWF p. 84
11a.2 NT services p. 90
11a.2.1 Iu interface and Nb interface at access side of IWF in a BICC based CS CN |R8| p. 90
11a.2.2 Nb interface at access side of IWF in a BICC based CS CN for Inter-MSC relocation |R8| p. 90
11a.2.3 Nb interface at network side of IWF in a BICC based CS CN |R8| p. 90
11a.2.4 Nb interface at access side of IWF in a SIP-I based CS CN |R8| p. 90
11a.2.5 Nb interface at network side of IWF in a SIP-I based CS CN |R8| p. 91
11a.2.6 A interface with IP transport |R8| p. 91
11a.3 T services p. 91
11a.3.0 Iu interface |R8| p. 91
11a.3.0a Nb interface in BICC based CS CN |R8| p. 91
11a.3.1 Avoidance of delay at RNC p. 91
11a.3.2 Recovery from the loss of ATM cells p. 92
11a.3.3 A interface with IP transport |R8| p. 92
11a.3.4 Nb interface at access side of IWF in a SIP-I based CS CN |R8| p. 92
11a.3.5 Nb interface at network side of IWF in a SIP-I based CS CN |R8| p. 92
12 Frame Synchronization p. 92
12.1 Initial frame synchronization p. 93
12.1.1 Terminating side (towards the UE) p. 93
12.1.2 Transit side (towards the fixed network) p. 93
12.2 Action on loss of frame synchronization p. 93
13 Call Clearing p. 94
14 The A-TRAU Framing Protocols |R5| p. 94
14.1 A-TRAU' Protocol p. 94
14.1.1 Frame layout for the different transparent user rates |R7| p. 94
14.1.2 A-TRAU' frame format p. 95
14.2 A-TRAU' Protocol p. 97
15 RTP Payload Type Negotiation for Data Calls within a SIP-I based CS Core Network |R8| p. 99
15.1 RTP payload type negotiation at access side of IWF p. 99
15.2 RTP payload type negotiation at network side of IWF p. 99
