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A Comprehensive Survey on the E2E 5G Network Slicing Model | IEEE Journals & Magazine | IEEE Xplore

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A Comprehensive Survey on the E2E 5G Network Slicing Model

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Abstract:

Today, the Network Slicing technology is massively addressed by the research community. However, Network Slice (NS) modelling details from Standards Developing Organizati...Show More

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Abstract:

Today, the Network Slicing technology is massively addressed by the research community. However, Network Slice (NS) modelling details from Standards Developing Organizations (SDOs) are not yet well considered for End-to-End (E2E) NS implementations. In addition, each SDO develops standards targeting only a specific part of the NS architecture. Therefore, based on a profound analysis of the major existing works, this article explains first (i) a general architecture that clarifies the basic E2E network slicing functionality before diving deep into domain-specific visions. Then, (ii) it focuses at providing a survey stitching together the NS modelling works in Radio Access Networks (RAN), Core Networks (CN) and also Transport Networks (TN). The end goal is to clarify the E2E Network Slicing process from the service order request to the NS deployment and life-cycle management. Last, as there is no consensus on a specific information model in the Transport network domains (iii) we provide our vision on how several data models, developed by IETF working groups, can be integrated together in the context of the ACTN architecture in order to provision and manage Transport NSs.

Published in: IEEE Transactions on Network and Service Management ( Volume: 18, Issue: 1, March 2021)

Page(s): 49 - 62

Date of Publication: 15 December 2020

ISSN Information:

DOI: 10.1109/TNSM.2020.3044626

References is not available for this document.

I. Introduction

The NGMN has developed 25 prominent mobile broadband use cases categorized in 8 families with highly diversified requirements in order to support its vision for the 5G architecture [2]. “Remote surgery” is an example of a customer use case that requires ultra-high reliability and at the same time ultra-low latency communications.

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1.

Open Network Foundation’s ACTN (Abstraction and Control of TE Networks) Project, Dec. 2020, [online] Available: https://wiki.onosproject.org/pp./viewpage.action?pageId=8424694.

2.

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3.

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4.

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12.

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13.

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14.

3GPP, TS 28.531, "5G; Management and Orchestration; Provisioning, Version 15.5.0 Release 15", 2020.

15.

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16.

3GPP, TS 28.541, "Management and Orchestration; 5G Network Resource Model (NRM); Stage 2 and Stage 3, Version 15.5.0 Release 15", 2020.

17.

ETSI, GR NFV-IFA 015, "Network Functions Virtualisation (NFV) Release 2; Management and Orchestration; Report on NFV Information Model", 2017.

18.

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3GPP, TS 28.625, "Telecommunication Management; State Management Data Definition Integration Reference Point (IRP); Information Service (IS), Version 15.1", 2019.

20.

ETSI, GS NFV IFA 013, "Network Functions Virtualisation (NFV); Management and Orchestration; OS-MA-NFVO Reference Point-interface and Information Model Specification, Version 2.1.1", 2016.

21.

3GPP, TS 23.501, "System Architecture for the 5G System (5GS), Version 15.9.0", 2020.

22.

3GPP, TS 22.261, "Service Requirements for the 5G System, Version 15.8", 2019.

23.

3GPP, TS 28.554, "Management and Orchestration; 5G End to End Key Performance Indicators (KPI), Version 15.4", 2019.

24.

IETF definition of transport slice, Fremont, CA, USA, 2020.

25.

5G transport slice connectivity interface, Fremont, CA, USA, 2019.

26.

Framework for abstraction and control of TE networks (ACTN), 2018.

27.

Problem statement and architecture for information exchange between interconnected traffic-engineered networks, 2016.

28.

On the difference between information models and data models, 2003.

29.

YANG module classification, 2017.

30.

Service models explained, 2018.

References is not available for this document.