TR 22.829
Study on enhancement for
Unmanned Aerial Vehicles

3GPP‑Page fToC_↓ Partial Content _→

V17.1.0 (Wzip) 2019/09 47 p.

Rapporteur:: Ms. WEI, QUN
China Unicom

full Table of Contents for TR 22.829 Word version: 17.1.0

each clause number in 'red' refers to the equivalent title in the Partial Content

Scope p. 7

References p. 7

Definitions of terms, symbols and abbreviations p. 7

3.1	Terms p. 7
3.2	Symbols p. 8
3.3	Abbreviations p. 8

Overview p. 8

Use cases p. 8

5.1

Use case of UAV supporting high resolution video live broadcast application p. 8

5.1.1	Description p. 8
5.1.2	Pre-conditions p. 9
5.1.3	Service Flows p. 9
5.1.4	Post-conditions p. 9
5.1.5	Existing features partly or fully covering the use case functionality p. 9
5.1.6	Potential New Requirements needed to support the use case p. 9

5.2

Radio Access Node on-board UAV p. 10

5.2.1	Description p. 10
5.2.2	Pre-conditions p. 11
5.2.3	Service Flows p. 11
5.2.4	Post-conditions p. 11
5.2.5	Existing features partly or fully covering the use case functionality p. 12
5.2.6	Potential New Requirements needed to support the use case p. 12

5.3

Use case for UAS Commands and Control (C2) Communication p. 12

5.3.1	Description p. 12
5.3.2	Pre-conditions p. 14
5.3.3	Service Flows p. 15
5.3.4	Post-conditions p. 15
5.3.5	Existing features partly or fully covering the use case functionality p. 15
5.3.6	Potential New Requirements needed to support the use case p. 15

5.4

Use case for simultaneously support data transmission for UAVs and eMBB users p. 16

5.4.1	Description p. 16
5.4.2	Pre-conditions p. 16
5.4.3	Service Flows p. 17
5.4.4	Post-conditions p. 17
5.4.5	Existing features partly or fully covering the use case functionality p. 17
5.4.6	Potential New Requirements needed to support the use case p. 17

5.5

Use case for autonomous UAVs controlled by AI p. 17

5.5.1	Description p. 17
5.5.2	Pre-conditions p. 18
5.5.3	Service Flows p. 18
5.5.4	Post-conditions p. 19
5.5.5	Existing features partly or fully covering the use case functionality p. 19
5.5.6	Potential New Requirements needed to support the use case p. 19

5.6

Isolated deployment of Radio Access Through UAV p. 19

5.6.1	Description p. 19
5.6.2	Pre-conditions p. 20
5.6.3	Service Flows p. 20
5.6.4	Post-conditions p. 20
5.6.5	Existing features partly or fully covering the use case functionality p. 20
5.6.6	Potential New Requirements needed to support the use case p. 21

5.7

Radio Access through UAV p. 21

5.7.1	Description p. 21
5.7.2	Pre-conditions p. 22
5.7.3	Service Flows p. 22
5.7.4	Post-conditions p. 23
5.7.5	Potential Impacts or Interactions with Existing Services/Features p. 23
5.7.6	Potential new requirements p. 23

5.8

Separation of UAV service area p. 24

5.8.1	Description p. 24
5.8.2	Pre-conditions p. 25
5.8.3	Service Flows p. 26
5.8.4	Post-conditions p. 26
5.8.5	Potential Impacts or Interactions with Existing Services/Features p. 26
5.8.6	Potential new requirements p. 27

5.9

Use case for service experience assurance p. 27

5.9.1	Description p. 27
5.9.2	Pre-conditions p. 27
5.9.3	Service Flows p. 28
5.9.4	Post-conditions p. 28
5.9.5	Existing features partly or fully covering the use case functionality p. 28
5.9.6	Potential New Requirements needed to support the use case p. 29

5.10

Use case for service availability to UAVs needs p. 29

5.10.1	Description p. 29
5.10.2	Pre-conditions p. 29
5.10.3	Service Flows p. 29
5.10.4	Post-conditions p. 30
5.10.5	Existing features partly or fully covering the use case functionality p. 31
5.10.6	Potential New Requirements needed to support the use case p. 31

5.11

Swarm of UAVs in logistics p. 31

5.12

Changing UAV Controller p. 32

5.12.1	Description p. 32
5.12.2	Pre-conditions p. 33
5.12.3	Service Flows p. 33
5.12.4	Post-conditions p. 33
5.12.5	Existing features partly or fully covering the use case functionality p. 33
5.12.6	Potential New Requirements needed to support the use case p. 34

5.13

Framework for steering KPIs of UAV p. 34

Description p. 34

Pre-conditions p. 34

Service Flows p. 34

Post-conditions p. 35

5.13.5

Existing features partly or fully covering the use case functionality p. 35

5.13.6

Potential New Requirements needed to support the use case p. 35

5.13.6.1	Service level requirements p. 35
5.13.6.2	KPIs p. 35

Void p. …

Consolidated potential requirements p. 36

7.1

Changing UAV Controller p. 36

7.1.1	KPIs for UAV services p. 36
7.1.2	KPIs for UAV periodic control p. 37
7.1.3	Other KPIs for UAV p. 37

7.2

Requirement for Network exposure p. 38

7.5

C2 communication p. 38

Conclusions and Recommendations p. 38

Computation of UAV Density and Range of Inspection p. 39

A.1	Overview p. 39
A.2	Determining the Minimum Cruise Radius of UAV p. 39
A.3	Merged Data Processing of Elevation Data Set p. 40
A.4	Internal cruise modes in key areas p. 41
A.5	External cruise modes in key areas p. 41
A.6	Result p. 42

Time Delay Calculation of Unmanned Aerial Vehicle p. 44

B.1	Overview p. 44
B.2	Basic model setting p. 44
B.3	Time delay calculation p. 45

UAV Information p. 46

C.1	UAV load capacity p. 46
C.2	UAV performance p. 46
C.3	Endurance capacity p. 46
C.4	Environmental requirements p. 46

Change history p. 47

TR 22.829 Study on enhancement for Unmanned Aerial Vehicles

full Table of Contents for TR 22.829 Word version: 17.1.0

TR 22.829
Study on enhancement for
Unmanned Aerial Vehicles