Joint Communication and Action Learning in Multi-Target Tracking of UAV Swarms with Deep Reinforcement Learning

Joint Communication and Action Learning in Multi-Target Tracking of UAV Swarms with Deep Reinforcement Learning

Blog Article

Communication is the cornerstone of UAV swarms to transmit information and achieve cooperation.However, artificially designed communication protocols usually rely on prior expert knowledge and lack flexibility and adaptability, which may limit the communication ability between UAVs and is not conducive to swarm cooperation.This paper adopts a new data-driven approach to study how reinforcement learning can be utilized to jointly learn the cooperative communication and action policies for UAV swarms.Firstly, the RED communication policy of a UAV is defined, so that the UAV can autonomously decide the content of the message sent out according to its real-time status.

Secondly, neural networks are designed Upper Spray Arm Shaft to approximate the communication and action policies of the UAV, and their policy gradient optimization procedures are deduced, respectively.Then, a reinforcement learning algorithm is proposed to jointly learn the communication and action policies of UAV swarms.Numerical simulation results verify that the policies learned by the proposed algorithm are superior to the existing benchmark algorithms in terms of multi-target tracking performance, scalability in different scenarios, and robustness under communication failures.