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Decentralized Resource Allocation-Based Multiagent Deep Learning in Vehicular Network

Armeline Dembo Mafuta, B. T. Maharaj, Attahiru Sule Alfa

2022IEEE Systems Journal27 citationsDOIOpen Access PDF

Abstract

Resource allocation (RA) has a significant impact on vehicular network performance. With high mobility, RA is more challenging, as the number of vehicles in close proximity changes dynamically in the nonstationary environment. In this article, we propose a multiagent double deep Q-networks scheme to stabilize the system and maximize the sum-capacity of the vehicle-to-infrastructure (V2I) links, while satisfying the reliability and delay constraints for vehicle-to-vehicle (V2V) links. To avoid interference caused by unstable V2V links, a transmission mode selection is considered in the scheme design. In addition, we introduce a binarized weight algorithm to accelerate the deep neural network learning process and, therefore, improve the computational complexity of our scheme. Through extensive simulations and complexity analysis, we demonstrate that the proposed scheme yields excellent performance in terms of the sum-rate and probability rate of V2I and V2V communication modes. We also compare the proposed scheme with binarized weights with other algorithms in terms of accuracy evaluation.

Topics & Concepts

Computer scienceScheme (mathematics)Resource allocationInterference (communication)Computational complexity theoryResource management (computing)Artificial neural networkReliability (semiconductor)Distributed computingProcess (computing)Transmission (telecommunications)Resource (disambiguation)Selection (genetic algorithm)Mathematical optimizationComputer networkArtificial intelligenceAlgorithmMathematicsTelecommunicationsMathematical analysisQuantum mechanicsChannel (broadcasting)PhysicsPower (physics)Operating systemVehicular Ad Hoc Networks (VANETs)Traffic control and managementTransportation and Mobility Innovations
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