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Reinforcement Learning With Multiple Relational Attention for Solving Vehicle Routing Problems

Yunqiu Xu, Meng Fang, Ling Chen, Gangyan Xu, Yali Du, Chengqi Zhang

2021IEEE Transactions on Cybernetics126 citationsDOI

Abstract

In this article, we study the reinforcement learning (RL) for vehicle routing problems (VRPs). Recent works have shown that attention-based RL models outperform recurrent neural network-based methods on these problems in terms of both effectiveness and efficiency. However, existing RL models simply aggregate node embeddings to generate the context embedding without taking into account the dynamic network structures, making them incapable of modeling the state transition and action selection dynamics. In this work, we develop a new attention-based RL model that provides enhanced node embeddings via batch normalization reordering and gate aggregation, as well as dynamic-aware context embedding through an attentive aggregation module on multiple relational structures. We conduct experiments on five types of VRPs: 1) travelling salesman problem (TSP); 2) capacitated VRP (CVRP); 3) split delivery VRP (SDVRP); 4) orienteering problem (OP); and 5) prize collecting TSP (PCTSP). The results show that our model not only outperforms the learning-based baselines but also solves the problems much faster than the traditional baselines. In addition, our model shows improved generalizability when being evaluated in large-scale problems, as well as problems with different data distributions.

Topics & Concepts

Reinforcement learningVehicle routing problemComputer scienceOrienteeringEmbeddingTravelling salesman problemContext (archaeology)Normalization (sociology)Artificial intelligenceMachine learningNode (physics)Adaptive routingRouting (electronic design automation)Mathematical optimizationMathematicsAlgorithmLink-state routing protocolRouting protocolBiologyAnthropologyComputer networkPaleontologyEngineeringStructural engineeringSociologyVehicle Routing Optimization Methods
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