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Learning-Based Queuing Delay-Aware Task Offloading in Collaborative Vehicular Networks

Zehan Jia, Zhenyu Zhou, Xiaoyan Wang, Shahid Mumtaz

202125 citationsDOI

Abstract

Collaborative vehicular network is a key enabler to meet the stringent communication and computing requirements of user vehicles (UVs). A UV dynamically optimizes task offloading by exploiting its collaborations with edge servers and vehicular fog servers (VFSs). However, the optimization of task offloading in highly dynamic collaborative vehicular networks faces several challenges such as queuing delay guaranteeing, incomplete information, and dimensionality curse. In this paper, a Deep Reinforcement lEarning-based queue-Aware task offloading algorithM named DREAM is proposed to maximize the throughput of the UVs while satisfying the long-term queuing delay constraints in a best-effort way. Compared with existing task offloading algorithms, DREAM achieves superior performance in throughput, convergence, and queuing delay.

Topics & Concepts

Computer scienceQueueing theoryServerReinforcement learningTask (project management)Computer networkThroughputQueuing delayDistributed computingQueueKey (lock)WirelessArtificial intelligenceComputer securityManagementTelecommunicationsEconomicsIoT and Edge/Fog ComputingVehicular Ad Hoc Networks (VANETs)Privacy-Preserving Technologies in Data
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