Litcius/Paper detail

CDS-Based Topology Control in FANETs via Power and Position Optimization

Xiaohan Qi, Peng Yuan, Qinyu Zhang, Zhihua Yang

2020IEEE Wireless Communications Letters29 citationsDOI

Abstract

In a flying ad hoc network (FANET), reliable maintenance of topology confronts a huge challenge due to the highly time-varying connectivity between flying nodes. Aiming at mitigating this issue, this letter proposes a connected dominating set (CDS) based topology control mechanism iteratively for the FANETs by solving a jointed optimization problem on adjusting the node's transmission power and position during the construction of CDS. In particular, a well-tailored group of the topology constructing and maintaining algorithms are developed with a time-discretized approach. Simulation results show that the proposed mechanism has a better performance with respects to overheads and network stability than a general particle swarm optimization (PSO) algorithm, especially in a typical swarm pattern for unmanned aerial vehicle (UAV) team.

Topics & Concepts

Topology controlComputer scienceNetwork topologyWireless ad hoc networkTopology (electrical circuits)Particle swarm optimizationNode (physics)Position (finance)Topology optimizationMobile ad hoc networkDistributed computingComputer networkWireless networkAlgorithmWirelessNetwork packetEngineeringKey distribution in wireless sensor networksElectrical engineeringStructural engineeringFinanceFinite element methodEconomicsTelecommunicationsUAV Applications and OptimizationMobile Ad Hoc NetworksDistributed Control Multi-Agent Systems