UNFOLD: uniform fast on-line boundary detection for dynamic 3D wireless sensor networks

ACM Interational Symposium on Mobile Ad Hoc Networking and Computing Pub Date : 2011-05-17 DOI:10.1145/2107502.2107520

Feng Li, Jun Luo, Chi Zhang, Shiqing Xin, Ying He

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引用次数: 22

Abstract

A wireless sensor network becomes dynamic if it is monitoring a time-variant event (e.g., expansion of oil spill in ocean). In such applications, on-line boundary detection is a crucial function, as it allows us to track the event variation in a timely fashion. However, the problem becomes very challenging as it demands a highly efficient algorithm to cope with the dynamics introduced by the evolving event. Moreover, as many physical events occupy volumes rather than surfaces (e.g., oil spill again), the algorithm has to work for 3D cases. To this end, we propose UNiform Fast On-Line boundary Detection (UNFOLD) to tackle the challenge. The essence of UNFOLD is to inverse node coordinates such that a "notched" surface is "unfolded" into a convex one, which in turn reduces boundary detection to simple convexity test. UNFOLD is uniform as every node behaves the same (performing coordinate inversion and convexity test), and it is super fast as both computation and communication involve only one-hop neighbors. We prove the correctness and efficiency of UNFOLD; we also use simulations and implementations to evaluate its performance, which demonstrates that UNFOLD is 100 times more time and energy efficient than the most up-to-date proposal.

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展开:动态三维无线传感器网络的统一快速在线边界检测

如果无线传感器网络正在监测时变事件(例如，海洋中石油泄漏的扩大)，它就会变得动态。在这些应用中，在线边界检测是一个至关重要的功能，因为它允许我们及时跟踪事件变化。然而，这个问题变得非常具有挑战性，因为它需要一个高效的算法来处理由演化事件引入的动态。此外，由于许多物理事件占用的是体积而不是表面(例如，石油再次泄漏)，该算法必须适用于3D情况。为此，我们提出了统一快速在线边界检测(UNiform Fast online boundary Detection，简称un褶)来解决这一问题。展开的本质是逆节点坐标，将“缺口”曲面“展开”为凸曲面，从而将边界检测简化为简单的凸性检验。它是均匀的，因为每个节点的行为都是一样的(执行坐标反演和凸性测试)，而且它的计算和通信都只涉及一跳邻居，速度非常快。证明了该算法的正确性和有效性;我们还使用仿真和实现来评估其性能，结果表明，与最新的提案相比，该方案的时间和能源效率提高了100倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ACM Interational Symposium on Mobile Ad Hoc Networking and Computing

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