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A Hierarchical Soft RAN Slicing Framework for Differentiated Service Provisioning

Junling Li, Weisen Shi, Peng Yang, Qiang Ye, Xuemin Shen, Xu Li, Jaya Rao

2020IEEE Wireless Communications48 citationsDOI

Abstract

Network slicing is a key technology to allow resource sharing among heterogeneous operators/ services, which achieves QoS isolation for service provisioning in future communication networks. In this article, a comprehensive hierarchical soft-slicing framework is proposed to enable software-defined radio access networks supporting differentiated services with diverse QoS requirements. The proposed framework consists of network-level slicing and gNodeB-level slicing. In the network level, radio RBs are pre-allocated to each gNodeB in a large time scale, while in the gNodeB level, the pre-allocated RBs are dynamically scheduled to the services in response to the small time scale (mini-slot-level) RB request variations. The proposed framework allows the accommodation of time-varying traffic loads of differentiated services over multiple gNodeBs, while enabling dynamic inter-gNodeB RB sharing to increase the resource multiplexing gain. A case study is presented to demonstrate the effectiveness of the proposed framework, followed by a discussion on open research issues.

Topics & Concepts

Computer scienceSlicingProvisioningComputer networkQuality of serviceDistributed computingKey (lock)Shared resourceService (business)Computer securityEconomicsEconomyWorld Wide WebSoftware-Defined Networks and 5GNetwork Traffic and Congestion ControlNetwork Security and Intrusion Detection