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A traffic-aware Q-network enhanced routing protocol based on GPSR for unmanned aerial vehicle ad-hoc networks

Yining Chen, Ni-qi Lyu, Guanghua Song, Bowei Yang, Xiaohong Jiang

2020Frontiers of Information Technology & Electronic Engineering46 citationsDOI

Abstract

In dense traffic unmanned aerial vehicle (UAV) ad-hoc networks, traffic congestion can cause increased delay and packet loss, which limit the performance of the networks; therefore, a traffic balancing strategy is required to control the traffic. In this study, we propose TQNGPSR, a traffic-aware Q-network enhanced geographic routing protocol based on greedy perimeter stateless routing (GPSR), for UAV ad-hoc networks. The protocol enforces a traffic balancing strategy using the congestion information of neighbors, and evaluates the quality of a wireless link by the Q-network algorithm, which is a reinforcement learning algorithm. Based on the evaluation of each wireless link, the protocol makes routing decisions in multiple available choices to reduce delay and decrease packet loss. We simulate the performance of TQNGPSR and compare it with AODV, OLSR, GPSR, and QNGPSR. Simulation results show that TQNGPSR obtains higher packet delivery ratios and lower end-to-end delays than GPSR and QNGPSR. In high node density scenarios, it also outperforms AODV and OLSR in terms of the packet delivery ratio, end-to-end delay, and throughput.

Topics & Concepts

Computer networkComputer scienceOptimized Link State Routing ProtocolAd hoc On-Demand Distance Vector RoutingWireless Routing ProtocolRouting protocolWireless ad hoc networkPacket lossZone Routing ProtocolAd hoc wireless distribution serviceVehicular ad hoc networkNetwork packetWirelessTelecommunicationsMobile Ad Hoc NetworksUAV Applications and OptimizationOpportunistic and Delay-Tolerant Networks
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