TS 28.310
Management and Orchestration –
Energy efficiency of 5G

3GPP‑Page ETSI‑search fToC_↓ Partial Content _→

V19.3.0 (PDF) 2025/12 … p.

V18.8.0 2025/03 44 p.

V17.10.0 2025/03 38 p.

V16.10.0 2024/12 31 p.

Rapporteur:: Dr. CORNILY, Jean-Michel
Huawei Technologies France

full Table of Contents for TS 28.310 Word version: 19.2.0

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

Scope p. 8

References p. 8

Definitions of terms, symbols and abbreviations p. 10

3.1	Terms p. 10
3.2	Symbols p. 11
3.3	Abbreviations p. 11

Concepts and overview p. 11

4.1

EE KPIs Overview p. 11

4.2

Management services p. 13

4.3

Energy saving p. 13

4.3.1	Introduction p. 13
4.3.2	Concepts p. 13

Specification level requirements p. 14

5.1

Use cases p. 14

5.1.1

Data Volume (DV) collection p. 14

5.1.1.1	Applicability p. 14
5.1.1.2	DV measurement control p. 14
5.1.1.3	DV measurement data file reporting p. 14
5.1.1.4	DV measurement data streaming p. 14

5.1.2

Power, Energy and Environmental (PEE) measurement collection p. 14

5.1.2.1	Applicability p. 14
5.1.2.2	PEE measurement control p. 14
5.1.2.3	PEE measurement data file reporting p. 15
5.1.2.4	PEE measurement data streaming p. 15
5.1.2.5	PEE fault management p. 15
5.1.2.6	PEE configuration management p. 15

5.1.3

Energy saving use cases p. 15

5.1.3.1

General p. 15

5.1.3.2

Capacity booster cell partially overlaid by candidate cell(s) p. 15

5.1.3.2.1	Introduction p. 15
5.1.3.2.2	Intra-RAT energy saving p. 16
5.1.3.2.3	Inter-RAT energy saving p. 16

5.1.3.3

Capacity booster cell fully overlaid by candidate cell(s) p. 16

5.1.3.4

Switch off edge UPFs during off-peak traffic hours |R17| p. 18

5.1.3.5

Energy saving optimization for multi-carrier RAN scenarios with several partially or fully overlaid capacity booster cells |R19| p. 18

5.1.4

Energy saving compensation activation and deactivation procedures |R18| p. 19

5.1.4.1	Introduction p. 19
5.1.4.2	Description p. 19

5.1.5

Intent driven RAN energy saving |R18| p. 19

5.1.6

Energy Efficiency as a Service Criteria |R19| p. 19

5.1.6.1	Description p. 19
5.1.6.2	Energy related information p. 19

5.2

Requirements p. 20

5.2.1

Requirements for Data Volume (DV) measurement p. 20

5.2.1.1	Applicability p. 20
5.2.1.2	Requirements for DV measurement control p. 20
5.2.1.3	Requirements for DV measurement data file reporting p. 20
5.2.1.4	Requirements for DV measurement data streaming service p. 20

5.2.2

Requirements for Power, Energy and Environmental (PEE) measurement p. 20

5.2.2.1	Applicability p. 20
5.2.2.2	Requirements for PEE measurement control p. 21
5.2.2.3	Requirements for PEE measurement data file reporting p. 21
5.2.2.4	Requirements for PEE measurement data streaming p. 21
5.2.2.5	Requirements for PEE fault supervision p. 21
5.2.2.6	Requirements for PEE configuration management p. 21

5.2.3

Requirements for energy saving p. 21

5.2.3.1	Requirements for capacity booster cell overlaid by candidate cell(s) p. 21
5.2.3.2	Requirements for switch off edge UPFs during off-peak hours \|R17\| p. 22
5.2.3.3	Requirements for energy saving compensation activation and deactivation procedures \|R18\| p. 22

5.2.4

Requirements for Intent driven RAN energy saving |R18| p. 22

5.2.5

Requirements for Energy Efficiency as a Service Criteria |R19| p. 23

5.2.5.1

Requirements for Energy related information p. 23

5.3

Actor roles p. 23

5.4

Telecommunication resources p. 23

Solutions for energy efficiency p. 23

6.1

Solutions for assessment of mobile network data energy efficiency p. 23

6.1.1

Energy efficiency of NG-RAN |R17| p. 23

6.1.2

Energy efficiency of network slices |R17| p. 23

6.1.2.1	Introduction p. 23
6.1.2.2	Void p. …
6.1.2.3	Void p. …
6.1.2.4	Void p. …
6.1.2.5	Void p. …

6.1.3

Energy efficiency of 5GC |R17| p. 24

6.1.3.1	Introduction p. 24
6.1.3.2	EE KPIs evaluated from network data traffic dimension p. 25

6.2

Solutions for energy saving p. 25

6.2.1

Overview p. 25

6.2.2

Centralized energy saving solution p. 26

6.2.2.1

Procedures p. 26

6.2.2.1.1	Energy saving activation p. 26
6.2.2.1.2	Energy saving deactivation p. 27

6.2.2.2

Management services p. 27

6.2.2.2.1

MnS component type A |R17| p. 27

6.2.2.2.2

MnS Component Type B |R17| p. 28

6.2.2.2.2.1	Objective and targets p. 28
6.2.2.2.2.2	Control information p. 28

6.2.2.2.3

MnS Component Type C |R17| p. 28

6.2.2.2.3.1	Parameters to be optimized p. 28
6.2.2.2.3.2	Performance measurements p. 28

6.2.3

Distributed energy saving solution p. 30

6.2.3.0

Management service components used for Distributed SON ES solution p. 30

6.2.3.1

Management services p. 30

6.2.3.1.1

MnS component type A p. 30

6.2.3.1.2

MnS Component Type B p. 30

6.2.3.1.2.1	Objective and targets p. 30
6.2.3.1.2.2	Control information p. 31

6.2.3.1.3

MnS Component Type C p. 31

6.2.3.1.3.1	Parameters to be optimized p. 31
6.2.3.1.3.2	Performance measurements p. 31

6.2.3.2

Procedures p. 33

6.2.3.2.1	Energy saving activation p. 33
6.2.3.2.2	Energy saving deactivation p. 34

6.3

Solutions for energy consumption |R17| p. 34

6.3.1

Solution for energy consumption of PNFs p. 34

6.3.2

Solution for energy consumption of VNF/VNFCs p. 34

6.3.2.1

Introduction p. 34

6.3.2.2

Solution for VM-based VNF/VNFCs p. 35

6.3.2.2.1

Solution based on vCPU usage of virtual compute resources p. 35

6.4

Solution for intent driven RAN energy saving |R18| p. 36

Roles involved in EE KPI building |R18| p. 37

7.1	Introduction p. 37

Information model definitions for Energy Information NRM |R19| p. 37

8.1

Imported and associated information p. 37

8.1.1	Imported information entities and local labels p. 37
8.1.2	Associated information entities and local labels p. 37

8.2

Class diagram p. 38

8.2.1	Relationships p. 38
8.2.2	Inheritance p. 38

8.3

Class definitions p. 39

8.3.1

EnergySupplyInfo p. 39

8.3.1.1	Definition p. 39
8.3.1.2	Attributes p. 39
8.3.1.3	Attribute constraints p. 39
8.3.1.4	Notifications p. 39

8.3.2

EnergySourceInfo <<dataType>> p. 39

8.3.2.1	Definition p. 39
8.3.2.2	Attributes p. 39
8.3.2.3	Attribute constraints p. 40
8.3.2.4	Notifications p. 40

8.3.3

EnergyInfoGroup p. 40

8.3.3.1	Definition p. 40
8.3.3.2	Attributes p. 40
8.3.3.3	Attribute constraints p. 40
8.3.3.4	Notifications p. 40

8.4

Attribute definitions p. 41

8.4.1

Attribute properties p. 41

8.5

Common notifications p. 42

8.5.1	Alarm notifications p. 42
8.5.2	Configuration notifications p. 42
8.5.3	Threshold Crossing notifications p. 42

Plant UML source code p. 43

A.1	Distributed energy saving activation p. 43
A.2	Distributed energy saving deactivation p. 43
A.3	Centralized energy saving activation p. 43
A.4	Centralized energy saving deactivation p. 44

Example scenarios |R18| p. 45

B.1	Example scenario #1 - non-virtualized RAN p. 45
B.2	Example scenario #2 - Virtualized 5GC on telco cloud p. 45

Energy information relationship diagram |R19| p. 47

C.1	The Figure 8.2.1-1: Energy information NRM fragment p. 47

Change history p. 48

TS 28.310 Management and Orchestration – Energy efficiency of 5G

full Table of Contents for TS 28.310 Word version: 19.2.0

TS 28.310
Management and Orchestration –
Energy efficiency of 5G