无人机辅助无线传感器网络的集成聚类和路由设计以及三角路径优化

Shao Liwei, Liping Qian, Mengru Wu, Wu Yuan
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摘要

随着物联网(IoT)的发展,要求无线传感器网络(WSN)具有更好的性能,如更大的覆盖范围、更长的使用寿命和更低的延迟。然而,监测和远距离传输产生的大量数据给电池电量有限的传感器节点带来了沉重负担。为此,我们在本文中研究了一种无人机辅助移动无线传感器网络(UAV-assisted WSN),以延长网络的使用寿命。具体来说,我们使用无人机协助 WSN 收集数据。在目前的无人机辅助 WSN 中,聚类和路由方案是按顺序确定的。然而,由于聚类和路由的相互耦合,这种单独的考虑可能无法最大限度地延长整个 WSN 的寿命。为了有效延长 WSN 的寿命,我们提出了一种集群和路由综合方案,将集群和路由共同优化。在整个网络空间中,要有效地获得最优的集成聚类和路由选择方案是非常困难的。因此,我们提出了基于蒙特卡洛和拉斯维加斯思想的蒙特-拉斯搜索策略,它可以生成链矩阵,引导算法更快地找到解决方案。不必要的点对点采集会导致采集路径过长,因此我们提出了三角优化策略,根据传感器节点的几何分布和能量,找到一条折中路径来缩短采集路径。为避免传感器节点死亡造成的覆盖空洞,移动传感器节点的部署和预防机制设计必不可少。此外,还提出了一种应急数据传输机制,以减少因无人机缺失而导致的对延迟敏感的数据采集延迟。与现有方案相比,所提出的方案可将无人机辅助 WSN 的寿命至少延长 360%,并将无人机的采集路径缩短 56.24%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated clustering and routing design and triangle path optimization for UAV-assisted wireless sensor networks
With the development of the Internet of Things (IoT), it requires better performance from wireless sensor networks (WSNs), such as larger coverage, longer lifetime, and lower latency. However, a large amount of data generated from monitoring and long-distance transmission places a heavy burden on sensor nodes with the limited battery power. For this, we investigate an unmanned aerial vehicles assisted mobile wireless sensor network (UAV-assisted WSN) to prolong the network lifetime in this paper. Specifically, we use UAVs to assist the WSN in collecting data. In the current UAV-assisted WSN, the clustering and routing schemes are determined sequentially. However, such a separate consideration might not maximize the lifetime of the whole WSN due to the mutual coupling of clustering and routing. To efficiently prolong the lifetime of the WSN, we propose an integrated clustering and routing scheme that jointly optimizes the clustering and routing together. In the whole network space, it is intractable to efficiently obtain the optimal integrated clustering and routing scheme. Therefore, we propose the Monte-Las search strategy based on Monte Carlo and Las Vegas ideas, which can generate the chain matrix to guide the algorithm to find the solution faster. Unnecessary point-to-point collection leads to long collection paths, so a triangle optimization strategy is then proposed that finds a compromise path to shorten the collection path based on the geometric distribution and energy of sensor nodes. To avoid the coverage hole caused by the death of sensor nodes, the deployment of mobile sensor nodes and the preventive mechanism design are indispensable. An emergency data transmission mechanism is further proposed to reduce the latency of collecting the latency-sensitive data due to the absence of UAVs. Compared with the existing schemes, the proposed scheme can prolong the lifetime of the UAV-assisted WSN at least by 360%, and shorten the collection path of UAVs by 56.24%.
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