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Learn to Compress CSI and Allocate Resources in Vehicular Networks

Liang Wang, Hao Ye, Le Liang, Geoffrey Ye Li

2020IEEE Transactions on Communications62 citationsDOIOpen Access PDF

Abstract

Resource allocation has a direct and profound impact on the performance of vehicle-to-everything (V2X) networks. In this paper, we develop a hybrid architecture consisting of centralized decision making and distributed resource sharing (the C-Decision scheme) to maximize the long-term sum rate of all vehicles. To reduce the network signaling overhead, each vehicle uses a deep neural network to compress its observed information that is thereafter fed back to the centralized decision making unit. The centralized decision unit employs a deep Q-network to allocate resources and then sends the decision results to all vehicles. We further adopt a quantization layer for each vehicle that learns to quantize the continuous feedback. In addition, we devise a mechanism to balance the transmission of vehicle-to-vehicle (V2V) links and vehicle-to-infrastructure (V2I) links. To further facilitate distributed spectrum sharing, we also propose a distributed decision making and spectrum sharing architecture (the D-Decision scheme) for each V2V link. Through extensive simulation results, we demonstrate that the proposed C-Decision and D-Decision schemes can both achieve near-optimal performance and are robust to feedback interval variations, input noise, and feedback noise.

Topics & Concepts

Computer scienceOverhead (engineering)Shared resourceResource allocationArtificial neural networkScheme (mathematics)Computer networkQuantization (signal processing)Distributed computingArtificial intelligenceMathematicsComputer visionMathematical analysisOperating systemVehicular Ad Hoc Networks (VANETs)Advanced MIMO Systems OptimizationAge of Information Optimization
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