| |
Table 4.3.4.2-1 | MCVideo mode associated 5QI values |
Figure 4.7.2-1 | Architectural view of a mission critical system when using MBS |
Figure 4.7.3.1-1 | Architectural view of a mission critical system when using MBS without optional MBS interfaces |
Figure 4.7.3.2-1 | Architectural view of a mission critical system when using MBS without optional MBSF/MBSTF entities and their associated interfaces |
Figure 4.7.3.3-1 | Architectural view of a mission critical system when using MBS without optional NEF entity and its associated interfaces |
Figure 4.7.4-1 | Service layer-based mission critical interworking between eMBMS and MBS |
Figure 4.7.5-1 | Application layer-based mission critical interworking between eMBMS and MBS |
Figure 4.7.6-1 | System architecture for MC MBS systems |
Figure 4.7.6-2 | Functional model highlighting the MC MBS API |
Figure 5.3.5-1 | Functional model for MC service off-network single hop relay operation |
Figure 5.4.1-1 | MCPTT functional model for application plane |
Figure 5.5.1-1 | MCVideo functional model for application plane |
Figure 5.6.1-1 | Generic MCData functional model for application plane |
Figure 6.2.1-1 | On-network architectural model |
Figure 6.3.1.2-1 | Common administration of all services by one operator |
Figure 6.3.1.3-1 | MC service provider administers MC service separately from SIP core and 5GS |
Figure 6.3.1.4-1 | MC service provider provision of SIP core, separate domain from 5GS |
Figure 6.3.1.5-1 | MC service provider partial provision of SIP core, separate domain from 5GS |
Figure 6.3.1.6-1 | MC service provider provides identities to PLMN operator SIP core |
Figure 6.3.2.2-1 | Resource management of MC service sessions by SIP core |
Figure 6.3.2.3-1 | Resource management of MC service sessions by MC service server |
Figure 6.4.2-1 | Business relationships for MC services |
Figure 6.4.3-1 | Business relationships for MC services for NTN operator |
Figure 6.5.1-1 | Off-network architectural model for 5G inter-UE communication where no relay function is used |
Figure 6.5.1-2 | Off-network architectural model for configuration management and group management |
Figure 7.2.2-1 | Resource request at session establishment - SIP core based |
Figure 7.2.3.2-1 | Resource request at session establishment - MC service server based |
Figure 7.2.4-1 | Media flow modification request |
Figure 7.2.5.2-1 | Request of resources for transmission control and media plane |
Table 7.3.2.1-1 | MBS session announcement |
Table 7.3.2.2-1 | UE session join notification |
Table 7.3.2.3-1 | MapGroupToSessionStream |
Table 7.3.2.7-1 | UnMapGroupFromSessionStream |
Table 7.3.2.8-1 | Discover MBS session request |
Table 7.3.2.9-1 | Discover MBS session response |
Table 7.3.2.10-1 | MBS listening status report |
Table 7.3.2.11-1 | MBS session de-announcement |
Table 7.3.2.12-1 | MBS session de-announcement acknowledgement |
Table 7.3.2.13-1 | Media distribution request |
Table 7.3.2.14-1 | Media distribution response |
Table 7.3.2.16-1 | MBS session announcement acknowledgement |
Figure 7.3.3.1.2-1 | Use of pre-created MBS session |
Figure 7.3.3.1.3-1 | Use of dynamic MBS session |
Figure 7.3.3.2.2-1 | MBS session update without dynamic PCC |
Figure 7.3.3.2.3-1 | MBS session update with dynamic PCC |
Figure 7.3.3.3.2-1 | MBS session deletion procedure |
Figure 7.3.3.4.2-1 | Multicast MBS session activation procedure |
Figure 7.3.3.4.3-1 | Multicast MBS session deactivation procedure |
Figure 7.3.3.5.2-1 | MC service group media transmission over MBS sessions |
Figure 7.3.3.6.2-1 | Use of 5G MBS for application-level control signalling |
Figure 7.3.3.7.2.1-1 | Multiple server MBS procedure independent of media. |
Figure 7.3.3.7.2.2-1 | Multiple server MBS procedure within one group call |
Figure 7.3.3.8.2.2.1-1 | Service continuity from broadcast to unicast |
Figure 7.3.3.8.2.2.2-1 | Service continuity from unicast to broadcast |
Figure 7.3.3.8.4.2-1 | Path switch from MBS session to a 5G ProSe UE-to-network relay |
Figure 7.3.3.8.4.3-1 | Path switch from a 5G ProSe UE-to-network relay to MBS session |
Figure 7.3.3.9.2-1 | Inter-system switching from 5G MBS session to LTE eMBMS bearer. |
Figure 7.3.3.9.3-1 | Inter-system switching from 5G MBS session to LTE unicast bearer. |
Figure 7.3.3.9.4-1 | Inter-system switching from LTE eMBMS bearer to 5G MBS sessions (either broadcast or multicast). |
Figure 7.3.3.9.5-1 | Inter-system switching from LTE eMBMS bearer to 5G unicast PDU session. |
Figure 7.3.3.10.2.2.1-1 | Group call connect over broadcast and multicast MBS sessions. |
Figure 7.3.3.10.2.2.2-1 | Group call disconnect over broadcast and multicast MBS sessions. |
Figure 7.3.3.11.2.2.1-1 | Group call connect on MBS session |
Figure 7.3.3.11.2.2.2-1 | Group call disconnect from MBS session |
Figure 7.3.3.12.4.2.1-1 | Group communication connect over broadcast and multicast MBS sessions. |
Figure 7.3.3.12.4.2.2-1 | Group communication disconnect over broadcast and multicast MBS sessions. |
Figure 7.3.3.13.2-1 | Application of FEC by the MBSF-MBSTF |
Figure 7.4.2-1 | MC services over 5GS with EPS interworking - Inter-system mobility |
Figure 7.4.3-1 | Network notifications of EPS interworking related events |
Table 7.5.2.2-1 | Location reporting configuration |
Table 7.5.2.3-1 | Location information report (LMC - LMS) |
Table 7.5.2.3-2 | Location information report (LMS - MC service server) |
Table 7.7.2.1-1 | L4S ECN feedback report |
Figure 7.7.3.1-1 | One-from-server video pull enhancement with ECN marking for L4S capability |
Figure 7.7.3.2-1 | One-to-server video push with ECN marking for L4S capability |
Figure B.1-1 | Service continuity from on-network to UE-to-network relay |