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Distributed Hybrid Task Offloading in Mobile-Edge Computing: A Potential Game Scheme

Zhaocheng Niu, Hui Liu, Yiming Ge, Junzhao Du

2024IEEE Internet of Things Journal23 citationsDOI

Abstract

Mobile edge computing introduces a novel computing paradigm for mobile devices, reducing execution latency and energy consumption by offloading tasks to edge servers or other idle mobile devices. In this paper, we consider the utility optimization problem of two typical computing tasks, latency-sensitive tasks and latency-tolerant tasks, among multiple mobile devices and base stations. Mobile devices can choose three computing modes to optimize utility: local computing, task allocation to base stations, and task allocation to other mobile devices through device-to-device communication. To address this problem, we formalize it as a potential game for multi-mobile device multi-base station task offloading. Furthermore, we prove the existence of a Nash equilibrium for the modeled potential game and propose a task allocation scheme for hybrid tasks. This scheme maximizes both energy consumption utility and task execution utility by optimizing task offloading mode selection and task execution order scheduling. Simulation results show that our proposed scheme can substantially enhance user utility and has good scalability with the increase of mobile devices.

Topics & Concepts

Computer scienceMobile edge computingScheme (mathematics)Potential gameDistributed computingTask (project management)Mobile computingEdge computingGame theoryComputer networkEnhanced Data Rates for GSM EvolutionNash equilibriumServerTelecommunicationsMathematical optimizationManagementMathematicsMicroeconomicsMathematical analysisEconomicsIoT and Edge/Fog ComputingCloud Computing and Resource Management
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