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A performance‐aware routing mechanism for flying ad hoc networks
Transactions on Emerging Telecommunications Technologies ( IF 2.5 ) Pub Date : 2020-12-09 , DOI: 10.1002/ett.4192 Hannan Ali 1 , Saif ul Islam 2 , Houbing Song 3 , Kashif Munir 1
Transactions on Emerging Telecommunications Technologies ( IF 2.5 ) Pub Date : 2020-12-09 , DOI: 10.1002/ett.4192 Hannan Ali 1 , Saif ul Islam 2 , Houbing Song 3 , Kashif Munir 1
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Flying ad hoc networks (FANETs) are visioned to unlock the potential of the Internet of Drones in various application scenarios like surveillance, agriculture, health care, disaster management, and rescue operations. As the unmanned aerial vehicles possess fast movements and frequent topological variations, selection of the next hop, self‐adaptation, and avoidance of dissemination loops have proven to be the challenging issues that have a considerable impact on the performance of a FANET. We propose a performance‐aware routing mechanism, G‐OLSR, for efficient communication and collaboration among the unmanned aerial vehicles in a FANET environment. The self‐adaptation of the network in case of any topological changes is considered in the proposed mechanism. Moreover, the proposed mechanism avoids the dissemination loops and it, consequently, improves the performance of the network. The simulation results show that the proposed mechanism performs better in terms of delay, message overhead, packet delivery ratio, and throughput than Optimized Link State Routing.
中文翻译:
飞行专用网络的性能感知路由机制
飞行自组织网络(FANET)旨在在监视,农业,医疗保健,灾难管理和救援行动等各种应用场景中释放无人机的潜力。由于无人飞行器具有快速的运动和频繁的拓扑变化,因此下一跳的选择,自适应和避免传播环路的事实已被证明是具有挑战性的问题,对FANET的性能产生重大影响。我们提出了一种性能感知路由机制G‐OLSR,以在FANET环境中实现无人机之间的高效通信和协作。所提出的机制考虑了网络在拓扑变化时的自适应性。而且,提出的机制避免了传播循环,因此,改善网络性能。仿真结果表明,所提出的机制在延迟,消息开销,分组传送率和吞吐量方面比优化链路状态路由性能更好。
更新日期:2021-01-13
中文翻译:
飞行专用网络的性能感知路由机制
飞行自组织网络(FANET)旨在在监视,农业,医疗保健,灾难管理和救援行动等各种应用场景中释放无人机的潜力。由于无人飞行器具有快速的运动和频繁的拓扑变化,因此下一跳的选择,自适应和避免传播环路的事实已被证明是具有挑战性的问题,对FANET的性能产生重大影响。我们提出了一种性能感知路由机制G‐OLSR,以在FANET环境中实现无人机之间的高效通信和协作。所提出的机制考虑了网络在拓扑变化时的自适应性。而且,提出的机制避免了传播循环,因此,改善网络性能。仿真结果表明,所提出的机制在延迟,消息开销,分组传送率和吞吐量方面比优化链路状态路由性能更好。
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