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5G RAN Slicing: Dynamic Single Tenant Radio Resource Orchestration for eMBB Traffic within a Multi-Slice Scenario

Massimiliano Maule, John S. Vardakas, Christos Verikoukis

2021IEEE Communications Magazine32 citationsDOIOpen Access PDF

Abstract

Emerging 5G systems will need to seamlessly guarantee novel types of services in a multi-do-main ecosystem. New methodologies of network and infrastructure sharing facilitate the cooperation among the operators, exploiting the core and access sections of the system architecture. Network slicing (NS) is the operators' best technique for building and managing a network. Without NS, the 5G requirements in terms of flexibility, optimal resource utilization, and investment returns cannot materialize. Before slicing is commercially available, different sections of the 5G architecture should be modified to include NS. In this work, we present a novel dynamic radio access network slicing resource sharing method aimed to guarantee optimal service level agreements through the monitoring of each slice tenant's key performance indicators. The experiments are conducted following the 3GPP specifications, and the solution is validated using a testbed based on the main 5G functionalities.

Topics & Concepts

Computer scienceSlicingRadio access networkOrchestrationTestbedComputer networkFlexibility (engineering)Core networkKey (lock)MultitenancyCellular networkShared resourceDistributed computingBase stationOperating systemSoftware developmentVisual artsWorld Wide WebMobile stationSoftwareSoftware as a serviceMathematicsMusicalArtStatisticsSoftware-Defined Networks and 5GAdvanced MIMO Systems OptimizationCooperative Communication and Network Coding
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