使用圆形封装算法的连接传感设备的有效部署

R. Ramadan, S. Abdel-Mageid
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引用次数: 8

摘要

在本文中,我们探讨了不同的传感器部署问题,以及如何在小规模问题中使用当前的包装方法最佳地解决这些问题。此外,我们考虑了同质或异质传感装置的部署。部署目标是最大限度地覆盖被监测的领域,利用传感设备的最佳特性,并制定一个连接的部署方案。本文提出了一种基于顺序封装的异构传感器部署算法(Sequential Packing-based Deployment algorithm, SPDA),以最大限度地提高所部署传感器的连通性和监测范围。该算法的灵感来自计算几何中的填充理论,它受益于从最优填充解决方案中捕获的许多观测属性。通过不同的案例研究验证了算法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient deployment of connected sensing devices using circle packing algorithms
In this paper, we explore different sensor deployment problems and how these problems can be solved optimally using the current packing approaches in terms of small-scale problems. In addition, we consider the deployment of either homogenous or heterogeneous sensing devices. The deployment objectives are to maximize the coverage of the monitored field and use the best of the sensing devices characteristics as well as developing a connected deployment scheme. We propose a novel algorithm named Sequential Packing-based Deployment Algorithm (SPDA) for the deployment of heterogeneous sensors in order to maximize the coverage of the monitored field and connectivity of the deployed sensors. The algorithm is inspired from the packing theories in computational geometry where it benefits from many of the observations properties that are captured from the optimal packing solutions. The algorithm efficiency is examined using different case studies.
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CiteScore
3.90
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