TR 21.917
Release 17 Description –
Summary of Rel-17 Work Items
V17.0.1 (PDF)
2022/12 169 p.
- Rapporteur:
- Mr. Sultan, Alain
ETSI
essential Table of Contents for TR 21.917 Word version: 17.0.1
each title, in the "available" or "not available yet" area, links to the equivalent title in the CONTENT
List of Figures and Tables
| Figure 5.1.1-1 | Direct access with transparent satellite |
| Figure 5.1.1-2 | satellite backhauling with constant delay |
| Figure 5.1.2-1 | Overall illustration of an NTN (from TS 38.300 [4]) |
| Figure 5.1.2-2 | Satellite Access Node (SAN) (from TS 38.108 [16]) |
| Table 5.1.2-1 | Satellite operating bands [16] |
| Figure 5.2-1 | Overall illustration of an NTN |
| Figure 5.2-2 | Timing relationship parameters |
| Figure 6.2.1.2-1 | 5G network on path of synchronization messages with two wireless links (both, UL and DL) [1] |
| Figure 6.2.3.1-1 | Example with a PLMN acting as underlay network and SNPN as overlay network |
| Figure 6.3.3.2.2-1 | UAS application layer over 3GPP system |
| Figure 6.3.3.3-1 | High-level System architecture for UAS |
| Figure 6.3.4.3.1-1 | User plane data transmission example |
| Figure 6.3.4.3.2-1 | Dynamic PTP/PTM switch for MBS multicast |
| Figure 6.3.4.3.2-2 | PDCP SN synchronization to enable lossless |
| Figure 7.1-1 | RA-SDT with UE context relocation |
| Figure 7.1-2 | RA-SDT without UE context relocation |
| Figure 7.2-1 | PDSCH transmission with 10 HARQ processes for HD-FDD Cat. M1 UEs |
| Figure 7.4-1 | Architecture to enable Time Sensitive Communication and Time Synchronization services |
| Figure 7.4-2 | 5G system is modelled as PTP instance for supporting time synchronization |
| Table 7.4-1 | TSC Assistance Information (TSCAI) |
| Figure 7.8-1 | Application Architecture of the MSGin5G Service |
| Figure 8.3.2-1 | Scenarios for UE-to-Network Relay |
| Figure 8.3.2-2 | Protocol Stack of Discovery Message for UE-to-Network Relay |
| Figure 8.3.2-3 | User plane protocol stack for L2 UE-to-Network Relay |
| Figure 8.3.2-4 | Control plane protocol stack for L2 UE-to-Network Relay |
| Figure 8.3.2-5 | Procedure for U2N Remote UE switching to direct Uu cell |
| Figure 8.3.2-6 | Procedure for U2N Remote UE switching to indirect path |
| Figure 9.4.3-1 | Trained ML Model Provisioning architecture |
| Figure 11.4-1 | Example of single TBoMS transmission (w/o repetitions) where 4 slots are allocated for the single TBoMS |
| Figure 11.4-2 | Example of TBoMS transmission w/ repetitions, where 2 slots are allocated for the single TBoMS and 4 repetitions are configured |
| Figure 11.12-1 | 24 NCSG patterns with visible interruption |
| Figure 13.2.1-1 | Overall architecture for separation of eNB-CP and eNB-UP |
| Figure 13.2.1-2 | Overall architecture for separation of ng-eNB-CU-CP and ng-eNB-CU-UP |
| Figure 14.2.1-1 | High level description of operation with 6/7/8MHz for PMCH |
| Figure 15.3-1 | Characterization Framework |
| Figure 15.6-1 | Reference architecture for generic UE data collection, reporting and event exposure |
| Figure 15.6-2 | Instantiation of generic data collection, reporting and event exposure for 5G Media Streaming |
| Figure 18.9-1 | intent-driven MnS |
| Figure 18.9-2 | Generic Information model definition |
| Figure 18.10-1 | |
| Figure 18.10-2 | |
| Figure 18.12-1 | 5G data connectivity converged charging architecture in Local breakout scenario reference point representation |