6 Performance requirements

22.2633GPPRelease 17Service requirements for Video, Imaging and Audio for Professional Applications (VIAPA)TS

6.1 Introduction

This section presents tables of performance requirements, where each line of the tables is considered as individual requirements.

6.2 General performance requirements

6.2.1 Video and audio production applications

Table 6.2.1-1: Performance requirements of professional low-latency periodic deterministic audio transport service

Profile

# of active UEs

UE Speed

Service Area

E2E latency (Note 1)

Transfer interval (Note 1)

Packet error rate (Note 2, Note 3)

Data rate UL

Data rate DL

Music Festival

200

10 km/h

500 m x 500 m

750 µs

250 µs

10-6

500 kbit/s

100

10 km/h

500 m x 500 m

750 µs

250 µs

10-6

1 Mbit/s

Musical

30

50 km/h

50 m x 50 m

750 µs

250 µs

10-6

500 kbit/s

20

50 km/h

50 m x 50 m

750 µs

250 µs

10-6

1 Mbit/s

10

50 m x 50 m

750 µs

250 µs

10-6

500 kbit/s

Semi-professional

10

5 km/h

5 m x 5 m

750 µs

250 µs

10-6

100 kbit/s

10

5 km/h

5 m x 5 m

750 µs

250 µs

10-6

200 kbit/s

2

5 m x 5 m

750 µs

250 µs

10-6

100 kbit/s

AV production

20

5 km/h

30 m x 30 m

750 µs

250 µs

10-6

1.5 Mbit/s

10

5 km/h

30 m x 30 m

750 µs

250 µs

10-6

3 Mbit/s

Audio Studio

30

10 m x 10 m

750 µs

250 µs

10-6

5 Mbit/s

10

5 km/h

10 m x 10 m

750 µs

250 µs

10-6

1 Mbit/s

NOTE 1: Transfer interval refers to periodicity of the packet transfers. It has to be constant during the whole operation. The value given in the table is a typical one, however other transfer intervals are possible as long as the end-to-end latency is ≤ (1ms – Transfer interval).

NOTE 2: Packet error rate is related to a packet size of (transfer interval × data rate). Packets that do not conform with the end-to-end latency are also accounted as error.

NOTE 3: The given requirement for a packet error rate assumes a uniform error distribution. The requirement for packet error rate is stricter if packet errors occur in bursts.

Table 6.2-1-2: Performance requirements of low-latency periodic deterministic audio transport service in presentation use cases

Profile

# of active UEs

UE Speed

Service Area

E2E latency (Note 1)

Transfer interval (Note 1)

Packet error rate (Note 2, Note 3)

Data rate UL

Data rate DL

Ad hoc

20

5 km/h

300 m x 300 m

4 ms

1 ms

10-5

200 kbit/s

8

stationary

300 m x 300 m

4 ms

1 ms

10-5

200 kbit/s

Campus

1000

5 km/h

2 km x 2 km

4 ms

1 ms

10-5

200 kbit/s

Conference

10

5 km/h

100 m x 100 m

4 ms

1 ms

10-5

1.5 Mbit/s

4

stationary

100 m x 100 m

4 ms

1 ms

10-5

1.5 Mbit/s

Lecture room

4

5 km/h

10 m x 10 m

4 ms

1 ms

10-5

50 kbit/s

2

stationary

10 m x 10 m

4 ms

1 ms

10-5

50 kbit/s

NOTE 1: Transfer interval refers to periodicity of the packet transfers. It has to be constant during the whole operation. The value given in the table is a typical one, however other transfer intervals are possible as long as the end-to-end latency is ≤ (5 ms – Transfer interval).

NOTE 2: Packet error rate is related to a packet size of (Transfer interval × data rate). Packets that do not conform with the end-to-end latency are also accounted as error.

NOTE 3: The given requirement for a packet error rate assumes a uniform error distribution. The requirement for packet error rate is stricter if packet errors occur in bursts.

Table 6.2.1-3: Performance requirements for low latency video.

Profile

# of active UEs

UE Speed

Service Area

E2E latency

Packet error rate (Note 1)

Data rate UL

Data rate DL

Uncompressed UHD video

1

0 km/h

1 km2

400 ms

10-10 UL

10-7 DL

12 Gbit/s

20 Mbit/s

Uncompressed HD video

1

0 km/h

1 km2

400 ms

10-9 UL

10-7 DL

3 .2 Gbit/s

20 Mbit/s

Mezzanine compression UHD video

5

0 km/h

1000 m2

1 s

10-9 UL

10-7 DL

3 Gbit/s

20 Mbit/s

Mezzanine compression HD video

5

0 km/h

1000 m2

1 s

10-9 UL

10-7 DL

1 Gbit/s

20 Mbit/s

Tier one events UHD

5

0 km/h

1000 m2

1 s

10-9 UL

10-7 DL

500 Mbit/s

20 Mbit/s

Tier one events HD

5

0 km/h

1000 m2

1 s

10-8 UL

10-7 DL

200 Mbit/s

20 Mbit/s

Tier two events UHD

5

7 km/h

1000 m2

1 s

10-8 UL

10-7 DL

100 Mbit/s

20 Mbit/s

Tier two events HD

5

7 km/h

1000 m2

1 s

10-8 UL

10-7 DL

80 Mbit/s

20 Mbit/s

Tier three events UHD (Note 2)

5

200 km/h

1000 m2

1 s

10-7 UL

10-7 DL

20 Mbit/s

10 Mbit/s

Tier three events HD (Note 2)

5

200 km/h

1000 m2

1 s

10-7 UL

10-7 DL

10 Mbit/s

10 Mbit/s

Remote OB

5

7 km/h

1000 m2

6 ms

10-8 UL

10-7 DL

200 Mbit/s

20 Mbit/s

NOTE 1: Packets that do not conform with the end-to-end latency are also accounted as error. The packet error rate requirement is calculated considering 1500 B packets, and 1 packet error per hour is 10-5/(3*x) , where x is the data rate in Mbps.

NOTE 2: Could use either professional equipment or mobile phone equipped with dedicated newsgathering app

Table 6.2.1-4: Performance requirements for airborne base stations for NPN.

Profile

# of active UEs

UE Speed

Service Area

E2E latency

Packet error rate (Note 1)

Data rate UL

Data rate DL

NPN ground to air UHD up Link

10

500 km/h

700 km2 x 6000 m (Note 2)

40 ms

10-8 UL

10-7 DL

100 Mbit/s

20 Mbit/s

NPN ground to air HD up link

10

500 km/h

700 km2 x 6000 m (Note 2)

40 ms

10-8 UL

10-7 DL

80 Mbit/s

20 Mbit/s

NPN air to ground

UHD down Link

2

500 km/h

700 km2 x 6000 m (Note 2)

40 ms

10-7 UL

10-8 DL

20 Mbit/s

100 Mbit/s

NPN air to ground HD down link

2

500 km/h

700 km2 x 6000 m (Note 2)

40 ms

10-7 UL

10-8 DL

20 Mbit/s

80 Mbit/s

NPN radio Camera UHD

10

200 km/h

1 km2

3 ms

10-8 UL

10-7 DL

100 Mbit/s

20 Mbit/s

NPN radio camera HD

10

200 km/h

1 km2

3 ms

10-8 UL

10-7 DL

80 Mbit/s

20 Mbit/s

NOTE 1: Packets that do not conform with the end-to-end latency are also accounted as error. The packet error rate requirement is calculated considering 1500 B packets, and 1 packet error per hour is 10-5/(3*x), where x is the data rate in Mbps.

NOTE 2: 6000 m = height but in a cone formation (i.e. ground coverage with a circle of diameter 30 KM)

6.2.2 Medical applications

Table 6.2.2‑1: Performance requirements for low latency ultra-reliable imaging/video traffic for medical applications

Profile

Characteristic parameter

Influence quantity

Communication service availability: target value in %

Communication service reliability: Mean Time Between Failure

End-to-end latency: maximum

Bit rate

Direction

Message

Size

[byte]

Survival time

UE speed

(km/h)

# of active UEs

connection

Service Area

UHD medical video over NPNs

>99.99999

>1 year

<1 ms

< 50 Gbit/s

UL; DL

~1500 – ~9000 (note 1)

~8ms

stationary

1

100 m2

Ultrasound images over NPNs

>99.9999

>1 year

<10ms

500 Mbit/s – 4 Gbit/s (note 2)

UL; DL

~1500

20-100 ms (note 2)

stationary

1

100 m2

UHD video for telesurgery over PLMNs

>99.9999

>1 year

< 20 ms

< 6 Gbit/s

UL; DL

~1500 – ~9000 (note 1)

~16 ms

stationary

<2 per 1000 km2

<400 km (note 3)

UHD video for medical examination over PLMNs

>99.99

>1 month

<20 ms

<4 Gbit/s

UL; DL

~1500 -9000

~16 ms

stationary

<20 per 100 km2

<50 km (note 3)

Ultrasound images over PLMNs

>99.999

>>1 month (<1 year)

<20 ms

<200 Mbit/s

UL; DL

~1500

~16 ms

stationary

<20 per 100 km2

<50 km (note 3)

CT/MR real time scan over PLMNs

>99.999

>>1 month (<1 year)

< 100ms

<670 Mbit/s

UL, DL

~1500

<100 ms

<150

<20 per 100 km2

<50 km (note 3)

NOTE 1: MTU size of 1500 bytes is not generally suitable to gigabits connections as it induces many interruptions and loads on CPUs. On the other hand, Ethernet jumbo frames of up to 9000 bytes require all equipment on the forwarding path to support that size in order to avoid fragmentation.

NOTE 2: lower values considered for 2D ultrasounds images and higher values for 3D ultrasound images

NOTE 3: Maximum straight-line distance between UEs.

6.3 Multicast performance requirements

6.3.1 Audio and video production applications

Table 6.3.1-1: Performance requirements for low latency deterministic periodic traffic with multicast service.

Profile

# of active UEs

# of UL streams

# of DL streams

UE Speed

Service Area

E2E latency (Note 1)

Transfer interval (Note 1)

Packet error rate (Note 2, Note 3)

Data rate UL

Data rate DL

Integrated audience services

50000

30 multicast streams

5 km/h

1.5 km x 1.5 km

7 ms DL

3 ms

10-4

200 kbit/s

Intercom system

1000

240 (Note 4)

30 multicast streams

5 km/h

1.5 km x 1.5 km

7 ms DL

7 ms UL

3 ms

10-4

100 kbit/s

100 kbit/s

NOTE 1: Transfer interval refers to periodicity of the packet transfers. It has to be constant during the whole operation. The value given in the table is a typical one, however other transfer intervals are possible as long as the end-to-end latency is ≤ (10 ms – Transfer interval).

NOTE 2: Packet error rate is related to a packet size of (Transfer interval × data rate). Packets that do not conform with the end-to-end latency are also accounted as error.

NOTE 3: The given requirement for a packet error rate assumes a uniform error distribution. The requirement for packet error rate is stricter if packet errors occur in bursts.

NOTE 4: The UL stream originating from a UE may be the source of a DL multicast stream.

6.3.2 Medical applications

Table 6.3.2‑1: Performance requirements for low latency ultra-reliable imaging/video multicast traffic for medical applications

Requirement

Characteristic parameter

Influence quantity

Communication service availability: target value in %

Communication service reliability: Mean Time Between Failure

End-to-end latency: maximum

Bit rate

Direction

Message

Size

[byte]

Survival time

UE speed

(km/h)

# of UEs

connection

Service Area

UHD medical video over NPNs

>99.99999

>1 day

<1 ms

< [50 Gbits/s]

DL

~1500 – ~9000 (note 1)

~8ms

stationary

<10

100 m2

UHD medical video over PLMNs

>99.9999

>1 day

< 250 ms

< [2 Gbit/s]

DL

~1500 – ~9000 (note 1)

~16 ms

stationary

<10

400 km

NOTE 1: MTU size of 1500 bytes is not generally suitable to gigabits connections as it induces many interruptions and loads on CPUs. On the other hand, Ethernet jumbo frames of up to 9000 bytes require all equipment on the forwarding path to support that size in order to avoid fragmentation.

Annex A (informative):
Change history

Change history

Date

Meeting

TDoc

CR

Rev

Cat

Subject/Comment

New version

2019-08

SA1#87

S1-192206

Skeleton created

0.1.0

2019-08

SA1#87

S1-192747

TS22.263_MainBody

0.1.0

2019-08

SA1#87

S1-192748

TS22.263_ServiceRequirements

0.1.0

2019-08

SA1#87

S1-192749

TS22.263_DualConnectivity

0.1.0

2019-08

SA1#87

S1-192750

TS22.263_PerformanceRequirements

0.1.0

2019-09

SA#85

SP-190883

Presentation for information to SA#85

1.0.0

2019-11

SA1#88

S1-193219

Changes from SA1#88

1.1.0

2019-12

SA#86

SP-191021

Presentation for approval to SA#86

2.0.0

2019-12

SA#86

SP-191021

Approved by SA#86

17.0.0

2020-07

SA#88e

SP-200565

0003

 

D

On the generic 5G requirements for VIAPA

17.1.0

2020-07

SA#88e

SP-200565

0004

1

D

Clarification on Definition of Media Clock and Uncompressed Video

17.1.0

2020-07

SA#88e

SP-200565

0005

1

D

Clarification on packet error per hour

17.1.0

2020-07

SA#88e

SP-200568

0006

 

F

Correction of CMED KPIs tables

17.1.0

2020-07

SA#88e

SP-200568

0007

 

F

Update description for medical application in section 4.4

17.1.0

2020-09

SA#89e

SP-200792

0010

1

F

Clarification on Clock Synchronicity – Alt. 2

17.2.0

2020-12

SA#90e

SP-201028

0012

0

F

Update and clarification of UE reconnection time

17.3.0

2021-06

SA#92e

SP-210501

0014

1

D

Updating the definition of communication service availability

17.4.0