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TECHNICAL SPECIFICATION
5G;
Management and orchestration;
Concepts, use cases and requirements
(3GPP TS 28.530 version 15.1.0 Release 15)
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3GPP TS 28.530 version 15.1.0 Release 15 1 ETSI TS 128 530 V15.1.0 (2019-04)
Reference
RTS/TSGS-0528530vf10
Keywords
5G
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3GPP TS 28.530 version 15.1.0 Release 15 2 ETSI TS 128 530 V15.1.0 (2019-04)
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Foreword
This Technical Specification (TS) has been produced by ETSI 3rd Generation Partnership Project (3GPP).
The present document may refer to technical specifications or reports using their 3GPP identities, UMTS identities or
GSM identities. These should be interpreted as being references to the corresponding ETSI deliverables.
The cross reference between GSM, UMTS, 3GPP and ETSI identities can be found under
.
Modal verbs terminology
In the present document "shall", "shall not", "should", "should not", "may", "need not", "will", "will not", "can" and
"cannot" are to be interpreted as described in clause 3.2 of the ETSI Drafting Rules (Verbal forms for the expression of
provisions).
"must" and "must not" are NOT allowed in ETSI deliverables except when used in direct citation.
ETSI
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3GPP TS 28.530 version 15.1.0 Release 15 3 ETSI TS 128 530 V15.1.0 (2019-04)
Contents
Intellectual Property Rights . 2
Foreword . 2
Modal verbs terminology . 2
Foreword . 5
Introduction . 5
1 Scope . 6
2 References . 6
3 Definitions and abbreviations . 6
3.1 Definitions . 6
3.2 Abbreviations . 7
4 Concepts and background . 7
4.1 General concepts . 7
4.1.1 Management of 5G networks and network slicing . 7
4.1.2 Types of communication services . 8
4.1.3 Communication services using network slice instances . 8
4.1.4 Communication services requirements . 9
4.1.5 NSI Lifecycle and relationship to service instances . 10
4.1.6 Network Slice as a Service (NSaaS) . 10
4.1.7 Network Slices as NOP internals . 11
4.1.8 Network slice delivery concepts . 12
4.2 Principles . 12
4.2.1 General Principles . 12
4.2.2 Principles of network slicing management framework . 12
4.3 Management aspects of a network slice instance . 13
4.3.1 Introduction. 13
4.3.2 Preparation . 13
4.3.3 Commissioning . 14
4.3.4 Operation . 14
4.3.5 Decommissioning . 14
4.4 Managed network slice concepts . 14
4.4.1 General . 14
4.5 Network slice subnet concepts . 15
4.6 Network slice subnet template concepts . 15
4.7 Coordination with management systems of non-3GPP parts . 15
4.8 Roles related to 5G networks and network slicing management . 16
5 Business level requirements . 17
5.1 Requirements . 17
5.1.1 General requirements . 17
5.1.2 Network slicing management . 18
5.1.3 CM requirements . 19
5.2 Actor roles . 19
5.3 Telecommunication resources . 20
5.4 High-level use cases . 20
5.4.1 Network slicing supporting communication services . 20
5.4.2 Provisioning of a network slice instance. 21
5.4.3 Provisioning of a network slice subnet instance . 22
5.4.4 Performance management of a Network Slice Instance (NSI). 22
5.4.5 Performance management of a Network Slice Subnet Instance (NSSI) . 23
5.4.6 Report fault management data of a network slice instance . 23
5.4.7 Report fault management data of a network slice subnet instance. 24
5.4.8 Multiple operator support for network slicing . 24
5.4.9 Manage network slice with agreed performance . 25
5.4.10 Communication services using network with or without slicing . 25
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5.4.11 Exposure of network slice management data for network slice as a service case . 26
5.4.12 Exposure of network slice management capability . 26
5.4.13 To modify the network slice instance due to changed demand . 27
5.4.14 Management data analytics for 5G networks . 27
5.4.15 Capacity management of Network Slice Instances (NSIs) and Network Slice Subnet Instances
(NSSIs) . 28
Annex A (informative): Change history . 29
History . 30
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3GPP TS 28.530 version 15.1.0 Release 15 5 ETSI TS 128 530 V15.1.0 (2019-04)
Foreword
This Technical Specification has been produced by the 3rd Generation Partnership Project (3GPP).
The contents of the present document are subject to continuing work within the TSG and may change following formal
TSG approval. Should the TSG modify the contents of the present document, it will be re-released by the TSG with an
identifying change of release date and an increase in version number as follows:
Version x.y.z
where:
x the first digit:
1 presented to TSG for information;
2 presented to TSG for approval;
3 or greater indicates TSG approved document under change control.
y the second digit is incremented for all changes of substance, i.e. technical enhancements, corrections,
updates, etc.
z the third digit is incremented when editorial only changes have been incorporated in the document.
Introduction
Network slicing is a key feature for 5G. Network slicing is a paradigm where logical networks/partitions are created,
with appropriate isolation, resources and optimized topology to serve a purpose or service category (e.g. use case/traffic
category, or for MNO internal reasons) or customers (logical system created "on demand").
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1 Scope
The present document specifies the concepts, use cases and requirements for management of network slicing in mobile
networks. The 3GPP management system directly manages only the parts of the network that consist of network
functions specified in 3GPP (e.g. 5G RAN, 5G CN and IMS). For the network functions specified by other SDOs, the
management impact of network slicing is addressed as required. For example, regarding the Transport Network (TN) part
supporting connectivity within and between CN and RAN parts, 3GPP management system may provide link
requirements (e.g. topology, QOS parameters) to the TN management system.
2 References
The following documents contain provisions which, through reference in this text, constitute provisions of the present
document.
- References are either specific (identified by date of publication, edition number, version number, etc.) or
non-specific.
- For a specific reference, subsequent revisions do not apply.
- For a non-specific reference, the latest version applies. In the case of a reference to a 3GPP document (including
a GSM document), a non-specific reference implicitly refers to the latest version of that document in the same
Release as the present document.
[1] 3GPP TR 21.905: "Vocabulary for 3GPP Specifications".
[2] 3GPP TS 22.261 "Service requirements for next generation new services and markets".
[3] 3GPP TS 23.501: " System Architecture for the 5G system".
[4] 3GPP TS 38.401 "NG-RAN; Architecture description".
3 Definitions and abbreviations
3.1 Definitions
For the purposes of the present document, the terms and definitions given in 3GPP TR 21.905 [1] and the following
apply. A term defined in the present document takes precedence over the definition of the same term, if any, in 3GPP
TR 21.905 [1].
network slice: Defined in 3gpp TS 23.501 v1.4.0 [3].
network slice instance: Defined in 3GPP TS 23.501 V1.4.0 [3].
network slice subnet: a representation of the management aspects of a set of Managed Functions and the required
resources (e.g. compute, storage and networking resources).
network slice subnet instance: an instance of Network Slice Subnet representing the management aspects of a set of
Managed Function instances and the used resources (e.g. compute, storage and networking resources).
Network Slice Subnet Template (NSST): subset of attributes' values used for creation of instances of Network Slice
Subnet Information Object Class.
NOTE: Network Slice Subnet Information Object Class describes the structure (i.e. contained components and
connectivity between them) and configuration of a network slice subnet, as well as network capability.
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3.2 Abbreviations
For the purposes of the present document, the abbreviations given in 3GPP TR 21.905 [1] and the following apply. An
abbreviation defined in the present document takes precedence over the definition of the same abbreviation, if any, in
3GPP TR 21.905 [1].
CSC Communication Service Customer
CSP Communication Service Provider
DN Data Network
MNO Mobile Network Operator
NOP Network Operator
NSaaS Network Slice as a Service
NSaasC Network Slice as a Service Customer
NSaaSP Network Slice as a Service Provider
NSC Network Slice Customer
NSI Network Slice Instance
NSP Network Slice Provider
NSS Network Slice Subnet
NSSI Network Slice Subnet Instance
NSST Network Slice Subnet Template
TN Transport Network
4 Concepts and background
4.1 General concepts
4.1.1 Management of 5G networks and network slicing
5G system consists of 5G Access Network (AN), 5G Core Network and UE, see TS 23.501 [3].
5G system is expected to be able to provide optimized support for a variety of different communication services,
different traffic loads, and different end user communities, see clause 4 of TS 22.261 [2]. For example, the
communication services using network slicing may include:
- V2X services
The 5G system aims to enhance its capability to meet KPIs that emerging V2X applications require. For these
advanced applications, the requirements, such as data rate, reliability, latency, communication range and speed,
are made more stringent, see clause 4 of TS 22.261 [2].
- 5G seamless eMBB service with FMC
As one of the key technologies to enable network slicing, fixed mobile convergence (FMC) which includes
wireless-to-the-everything (WTTx) and fibre-to-the-everything (FTTx), is expected to provide native support for
network slicing. For optimization and resource efficiency, the 5G system will select the most appropriate 3GPP
or non-3GPP access technology for a communication service, potentially allowing multiple access technologies
to be used simultaneously for one or more services active on a UE, see clause 6.3 of TS 22.261 [2].
- massive IoT connections
Support for massive Internet of Things (mIoT) brings many new requirements in addition to MBB
enhancements, see clause 4 of TS 22.261 [2]. Communication services with massive IoT connections such as
smart households, smart grid, smart agriculture and smart meter will require the support of a large number and
high density IoT devices to be efficient and cost effective, see TS 23.501 [3]. Operators can use one or more
network slice instances to provide these communication services, which require similar network characteristics,
to different vertical industries.
The next generation 3GPP management system is expected to support the management of 3GPP 5G system and 3GPP
legacy systems.
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3GPP management system directly manages 3GPP managed network components (e.g. 5G RAN, 5G CN). For non-
3GPP domains (e.g. DCN, TN), 3GPP management system needs to coordinate with the corresponding management
systems of the non-3GPP domains.
4.1.2 Types of communication services
Communication services offered by Communication Service Providers (CSPs) to Communication Service Customers
(CSCs) are of various categories, among which:
- Business to consumer (B2C) services, e.g. mobile web browsing, 5G voice, Rich Communication Services, etc.
- Business to business (B2B) services, e.g. Internet access, LAN interconnection, etc.
- Business to household (B2H) services, e.g. Internet access, MBMS, VOIP, VPN, etc.
- Business to business to everything (B2B2X) services: e.g. services offered to other CSPs (e.g. international
roaming, RAN sharing, etc.) offering themselves communication services to their own customers. B2B2X
service type includes B2B2 applied recursively, i.e. B2B2B, B2B2B2B, etc.
NOTE: How to derive different network slice related requirements from different categories of communication
services is not in the scope of the present document.
A communication service offered by CSPs can include a bundle of specific B2C, B2B, B2H or B2B2X type of services.
Taking as an example the B2C type of services, a bundle could include: data (for mobile web browsing), voice (through
5G voice), and messaging (via Rich Communication Services). In this case, each one of the individual B2C may be
fulfilled by different PDU connectivity services provided via corresponding PDU sessions.
4.1.3 Communication services using network slice instances
As an example, a variety of communication services instances provided by multiple NSI(s) are illustrated in the figure
4.1.3.1. Figure 4.1.3.1 is only for illustrative purposes to highlight the combination and relationship of Communication
Services to Network Slices without depicting any UE. An actual network slice deployment offering communication
services to UEs will need to comply with the 5G system architecture defined in TS 23.501 [3] and TS 38.401 [4].
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3GPP TS 28.530 version 15.1.0 Release 15 9 ETSI TS 128 530 V15.1.0 (2019-04)
Figure 4.1.3.1: A variety of communication services instances provided by multiple NSIs
Different NSIs (NSI A, NSI B and NSI C) contains NFs (e.g. belonging to NSSI AN-1, NSSI AN-2, NSSI CN-1, NSSI
CN-2 and NSSI CN-3) as well as all information relevant to the interconnections between these NFs. Different
Communication Service Instances are provided by CSP through using different NSIs. For example, Communication
Service Instance 1 and Communication Service Instance 2 use NSI A which contains dedicated NSSIs (NSSI CN-1 and
NSSI AN-1), Communication Service Instance 3 uses NSI C which contains a dedicated NSSI (NSSI CN-3) and an
NSSI (NSSI AN-2) shared with NSI B.
4.1.4 Communication services requirements
eMBB service type aims at supporting high data rates and high traffic densities as outlined in TS 22.261 [2], Table 7.1-1
"Performance requirements for high data rate and traffic density scenarios". URLLC service type aims at supporting the
requirements in TS 22.261 [2], Table 7.2.2-1 "Performance requirements for low-latency and high-reliability services."
related to high reliability and low latency scenarios. mIoT service type aims at supporting a large number and high
density of IoT devices efficiently and cost effectively, see TS 23.501 [3].
Depending on the service type (eMBB, URLLC, mIoT), different service types may include different network slice
related requirements, for example:
- Area traffic capacity requirement
- Charging requirement
- Coverage area requirement
- Degree of isolation requirement
- End-to-end latency requirement
- Mobility requirement
- Overall user density requirement
- Priority requirement
- Service availability requirement
- Service reliability requirement
- UE speed requirement
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4.1.5 NSI Lifecycle and relationship to service instances
An NSI may support multiple service instances. When a service instance is to be supported, it may trigger an operation
phase of the NSI lifecycle for activation or modification(s) of an existing NSI, or it may trigger a commissioning phase
of the NSI lifecycle for creation of a new NSI. When a service instance no longer needs to be supported by an NSI, it
may trigger an operation phase of the NSI lifecycle for de-activation or modification(s) of an existing NSI, or it may
trigger a decommissioning phase of the NSI lifecycle for termination of an existing NSI.
4.1.6 Network Slice as a Service (NSaaS)
Network Slice as a Service (NSaaS) can be offered by a CSP to its CSC in the form of a communication service. This
service allows CSC to use the network slice instance as the end user or optionally allows CSC to manage the network
slice instance as manager via management exposure interface. In turn, these CSC can play the role of CSP and offer
their own services (e.g. communication services) on top of the network slice instance. For example, a network slice
customer can also play the role of NOP and could build their own network containing the network slice offered by the
operator. In this model, both CSP offering NSaaS and CSC consuming NSaaS have the knowledge of the existence of
network slice instances. Depending on service offering, CSP offering NSaaS may impose limits on the NSaaS
characteristics exposure to the CSC, and the CSC can manage the network slice instance according to NSaaS
characteristics exposed and agreed upon limited level of management by the CSP.
The NSaaS offered by the CSP could be characterized by certain properties, e.g.
- radio access technology,
- bandwidth,
- end-to-end latency,
- reliability,
- guaranteed / non-guaranteed QoS,
- security level, etc.
Figure 4.1.6.1 illustrates some examples on how network slices can be utilized to deliver communication services,
including Network Slice as a Service:
a) A Network Slice as a Service is provided to CSC-A by CSP-A. Unlike the communication service delivered to
end customers, in NSaaS, the communication service is the actual network slice.
b) CSC-A can use the offered network slice by CSP-A or may add additional network functions to the offered
NSaaS to provide a new network slice to CSP-B. In this case, CSC-A plays the role of NOP-B and builds his
own network.
c) CSP-B can use the offered network slice built by CSC-A / NOP-B to deliver Communication Services to end
customers (CSC-B).
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3GPP TS 28.530 version 15.1.0 Release 15 11 ETSI TS 128 530 V15.1.0 (2019-04)
NSI
NSI
Figure 4.1.6.1: Examples of Network Slice as a Service being utilized to deliver communication
services to end customers
4.1.7 Network Slices as NOP internals
In the "Network Slices as NOP internals" model, network slices are not part of the CSP service offering and hence are
not visible to CSCs. However, the NOP, to provide support to communication services, may decide to deploy network
slices, e.g. for internal network optimization purposes. This model allows CSC to use the network as the end user or
optionally allows CSC to monitor the service status.
The CSP should be able to provide the service status information (e.g. service performance, fault information, traffic
data, etc) to CSC via the management exposure interface.
Figure 4.1.7.1 illustrates an example on how network slices can be utilized to deliver communication services:
a) A network slice is used as NOP internal, and CSP delivers communication services to end customers (CSC).
b) The CSC should be able to monitor the network and service status information (e.g. service performance, fault
information, traffic data, etc.) provided by CSP.
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3GPP TS 28.530 version 15.1.0 Release 15 12 ETSI TS 128 530 V15.1.0 (2019-04)
CSC
CSP
offer
CS
NOP
Management
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