A CDS-based topology control algorithm for ensuring area coverage and lifetime in wireless sensor networks

2017 IEEE 17th International Conference on Communication Technology (ICCT) Pub Date : 2017-10-01 DOI:10.1109/ICCT.2017.8359773

Peng Geng, Yan Liu, Jie Yang

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Abstract

Research on connectivity and coverage under the premise of ensuring the network lifetime is one of the basic problems for wireless sensor networks. The CDS-based topology construction algorithms A3 and A3Cov are well-known strategies to save energy and extend the lifetime of wireless sensor networks. By setting the time and energy thresholds in the topology maintenance phase, this paper analyzes the performances of Time-based A3, Time-based A3Cov, Energy-based A3 and Energy-based A3Cov from the aspects of lifetime and sensing coverage. Simulation results show that Energy-based A3Cov performs best before 10000 time units. But it does not perform well in the later stages of the lifetime. So we apply the network coding technology in the Energy-based A3Cov algorithm, and then a new algorithm named Energy-based NCA3Cov is proposed. In which different buffers are set for one-hop nodes (from sink), two-hop nodes (from sink), and important nodes (the node degree is greater than average degree). Information is forwarded only when the buffer is full. Simulation results show that the NCA3Cov is able to find better topologies than the A3Cov algorithm, and extending the network lifetime.

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一种基于cd的无线传感器网络区域覆盖和寿命保证拓扑控制算法

在保证网络寿命的前提下研究网络的连通性和覆盖是无线传感器网络的基本问题之一。基于cds的拓扑构建算法A3和A3Cov是众所周知的节能和延长无线传感器网络寿命的策略。通过设置拓扑维护阶段的时间和能量阈值，从寿命和感知覆盖两个方面分析了基于时间的A3、基于时间的A3Cov、基于能量的A3和基于能量的A3Cov的性能。仿真结果表明，基于能量的A3Cov算法在10000个时间单位前性能最佳。但它在生命的后期阶段表现不佳。为此，我们将网络编码技术应用到基于能量的A3Cov算法中，提出了一种新的基于能量的NCA3Cov算法。其中为一跳节点(来自汇聚)、两跳节点(来自汇聚)和重要节点(节点度大于平均度)设置不同的缓冲区。只有当缓冲区已满时才转发信息。仿真结果表明，NCA3Cov算法能够找到比A3Cov算法更好的拓扑结构，延长了网络的生存期。

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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2017 IEEE 17th International Conference on Communication Technology (ICCT)

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