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Joint Scheduling and Resource Allocation for Efficiency-Oriented Distributed Learning Over Vehicle Platooning Networks

Xiaoting Ma, Junhui Zhao, Yi Gong

2021IEEE Transactions on Vehicular Technology25 citationsDOI

Abstract

The limited communication and computing resources, as well as the rising concerns about the privacy protection, bring significant challenges to the massive data training and analysis in vehicular networks. To address these challenges, in this paper a platoon-based distributed learning framework design for data learning is carried out, where the vacant computation resources of vehicle platooning networks are leveraged. In the proposed framework, a 2-phase Markovian stochastic process is utilized to depict the learning service heterogeneity for each participating vehicle. Meanwhile, we propose a joint scheduling and resource allocation scheme for efficiency-oriented distributed learning to maximize the learning accuracy subject to a given learning time constraint. The optimization problem is solved as follows. First, given the scheduled vehicles, the communication resource allocation is modeled as a minimum-maximum problem to minimize the learning delay of each learning round. Subsequently, an efficiency-oriented unbiased global aggregation policy is proposed to explore the convergence difference between partial scheduling and total scheduling. Considering the learning convergence and remaining time, an on-demand scheduling scheme is introduced to determine the number of scheduled vehicles. Finally, combining the learning efficiency of each vehicle with the scheduled number of vehicles, the scheduled vehicle set is selected. Simulations results show that the proposed scheduling policy can schedule the number of participating vehicles on demand based on the trade-off between learning performance and learning latency.

Topics & Concepts

Computer scienceScheduling (production processes)Dynamic priority schedulingDistributed computingLearning effectPlatoonJob shop schedulingScheduleReinforcement learningMathematical optimizationComputer networkArtificial intelligenceQuality of serviceControl (management)MicroeconomicsOperating systemMathematicsEconomicsPrivacy-Preserving Technologies in DataVehicular Ad Hoc Networks (VANETs)Age of Information Optimization