Optimal transmit power and energy level performance of random WSN in Rayleigh fading channel

2011 2nd International Conference on Computer and Communication Technology (ICCCT-2011) Pub Date : 2011-11-10 DOI:10.1109/ICCCT.2011.6075110

A. Nandi, S. Kundu

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引用次数: 4

Abstract

In Wireless Sensor Networks (WSNs) where nodes are power-driven by batteries, it is important to extend the network lifetime by minimizing the energy consumption of each node. Excessive high transmit power consumes more energy and increases internode interference significantly, while low transmit power may cause network failure. Thus choice of optimal transmit power is one of the prime concern in such network. Optimal transmit power is the minimum power required to sustain the network connectivity while maintaining a predetermined maximum tolerable Bit Error Rate (BER). In this paper, optimal transmit power is derived for a WSN deployed based on a random topology. Further impact of Rayleigh fading on optimal transmit power, route BER and energy consumption for successful delivery of data in multihop using ARQ in each hop is studied for such random WSN. In random network, an intermediate node in the route selects the nearest node within a sector of angle (θ) towards the direction of the destination as the next hop. The effects of search angle (θ) on optimal transmit power, route BER performance and energy consumptions are also indicated.

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随机无线传感器网络在瑞利衰落信道中的最优发射功率和能级性能

在电池驱动节点的无线传感器网络(WSNs)中，通过最小化每个节点的能量消耗来延长网络寿命是非常重要的。发射功率过高会消耗更多能量，节点间干扰明显增加，而发射功率过低则可能导致网络故障。因此，选择最优发射功率是该网络的主要问题之一。最佳传输功率是维持网络连通性所需的最小功率，同时保持预定的最大可容忍误码率(BER)。本文推导了基于随机拓扑的无线传感器网络的最优发射功率。针对这种随机WSN，进一步研究了瑞利衰落对多跳ARQ传输数据的最优发射功率、路由误码率和能耗的影响。在随机网络中，路由中的中间节点在与目的地方向夹角(θ)的扇形内选择最近的节点作为下一跳。研究了搜索角(θ)对最优发射功率、路由误码率性能和能量消耗的影响。

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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2011 2nd International Conference on Computer and Communication Technology (ICCCT-2011)

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