Abstract
In this paper, we define a flexible, adaptable, and programmable architecture for 5G mobile networks, taking into consideration the requirements, KPIs, and the current gaps in the literature, based on three design fundamentals: (i) split of user and control plane, (ii) service-based architecture within the core network (in line with recent industry and standard consensus), and (iii) fully flexible support of E2E slicing via per-domain and cross-domain optimisation, devising inter-slice control and management functions, and refining the behavioural models via experiment-driven optimisation. The proposed architecture model further facilitates the realisation of slices providing specific functionality, such as network resilience, security functions, and network elasticity. The proposed architecture consists of four different layers identified as network layer, controller layer, management and orchestration layer, and service layer. A key contribution of this paper is the definition of the role of each layer, the relationship between layers, and the identification of the required internal modules within each of the layers. In particular, the proposed architecture extends the reference architectures proposed in the Standards Developing Organisations like 3GPP and ETSI, by building on these while addressing several gaps identified within the corresponding baseline models. We additionally present findings, the design guidelines, and evaluation studies on a selected set of key concepts identified to enable flexible cloudification of the protocol stack, adaptive network slicing, and inter-slice control and management.
Highlights
Since the early research phase of the fifth generation (5G) starting in 2012 [1,2,3,4], the development of concepts for the 5G system (5GS) has progressed at a rapid pace
Within the 5GS, end-to-end (E2E) network slicing spanning over network domains, where multiple logical networks corresponding to different business operations, referred to as verticals, are sharing a common infrastructure, is seen as the fundamental pillar
We extend the reference architectures proposed by 3GPP and ETSI Network Function Virtualisation (NFV) by building on these architectures while addressing several gaps identified within the corresponding baseline models
Summary
Since the early research phase of the fifth generation (5G) starting in 2012 [1,2,3,4], the development of concepts for the 5G system (5GS) has progressed at a rapid pace. Wireless Communications and Mobile Computing operators unique opportunities to offer new business models to consumers, enterprises, verticals, and third-party tenants and address such various requirements To this end, both research projects [5,6,7,8] and standardisation efforts [9, 10] have described the main elements of the 5G architecture. Third generation partnership project (3GPP) has already completed the early-drop “non-standalone” release of 5G by December 2017 [11], the main-drop “standalone” release of 5G by June 2018 [12], and the late-drop release of 5G with specification of remaining architecture options by the end of 2018 [13] All these aforementioned efforts have provided a solid baseline architecture, in our view there is still room for 5GS enhancements to better fulfill the 5G vision of supporting diverse service requirements while enabling new business sectors often referred to as vertical industries. This paper aims to define a flexible, adaptable, and programmable architecture for 5G mobile networks taking into account current gaps in the literature
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