占空比无线传感器网络节能组播的组斯坦纳树模型

2014 IEEE Fifth International Conference on Communications and Electronics (ICCE) Pub Date : 2014-10-07 DOI:10.1109/CCE.2014.6916710

T. Nguyen, Son-Hong Ngo, H. T. Thanh Binh

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引用次数: 4

摘要

针对占空比无线传感器网络(DC-WSN)中的最小能量组播(MEM)问题，提出了两种改进算法。我们首先将MEM问题表述为一个群斯坦纳树(GST)模型，该模型可以通过一系列著名的近似算法来求解。我们采用一种最著名的GST近似方法来直接解决这个问题，但它仍然需要很长的计算时间。然后，我们遵循基于扩展图的方法，并提出了一种改进的算法，称为R-TCS。通过在组播树构建过程中使用一种改进的方案，我们提出的R-TCS算法在能量消耗方面得到了更好的解决方案。仿真结果表明，R-TCS在传输总能量成本上明显优于TCS，与GS-MEM相比，仅需要合理的额外计算时间。

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Group steiner tree model for energy efficient multicast in Duty-Cycle Wireless Sensor Networks

We focus on the minimum-energy multicasting (MEM) problem in Duty-Cycle Wireless Sensor Networks (DC-WSN) and propose two improved algorithms to solve it. We first formulate the MEM problem as a Group Steiner Tree (GST) model, which can be solved by a series of well-known approximate algorithms. We adopt one of best known GST approximate approaches to directly solve this problem but it still takes a long computation time. We then follow the extended graph based approach and propose an improved algorithm called R-TCS. By using an enhanced scheme during the construction of multicast tree, our proposed R-TCS algorithm can find a much better solution in terms of energy cost. Simulation results show that the R-TCS significantly outperforms TCS and can be compared with GS-MEM in terms of total transmission energy cost while only requiring a reasonable extra computation time.

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2014 IEEE Fifth International Conference on Communications and Electronics (ICCE)

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