Cooperative Spectrum Sensing for Cognitive Radio-Wireless Sensors Network Based on OR Rule Decision to Enhance Energy Consumption in Greenhouses

Haythem Alhumud, M. Zohdy, D. Debnath, Richard Olawoyin, S. Arefifar
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引用次数: 6

Abstract

Wireless sensors networks (WSNs) combined with cognitive radio have developed and solved the limited space of the frequency spectrum. In this paper, we propose different types of spectrums sensing and their own decisions depend on the probabilities that applied into fusion center, and how these probabilities’ techniques help to enhance the energy consumption of WSNs. In the same way, the importance of designing balanced distribution between the wireless sensors networks and their own sinks. This research also provides an overview of security issues in CR-WSN, especially in Spectrum Sensing Data Falsification (SSDF) attacks that enforces harmful effects on spectrum sensing and spectrum sharing. We adopt OR rule as four types of CRSN sensing protocolin greenhouses application by using Matlab and Netsim simulators. Our results show that the designing balanced wireless sensors and their sinks in greenhouses are very significant to decrease the energy, which is due to the traffic congestion in the sink range area. Furthermore, by applying OR rule has enhanced the energy consumption, and improved the sensors network lifetime compared to cognitive radio network.
基于OR规则决策的认知无线电-无线传感器网络协同频谱感知提高温室能耗
无线传感器网络(WSN)与认知无线电相结合,发展并解决了频谱空间有限的问题。在本文中,我们提出了不同类型的频谱感知,它们自己的决策取决于应用于融合中心的概率,以及这些概率的技术如何帮助提高无线传感器网络的能耗。同样,在无线传感器网络和它们自己的接收器之间设计平衡分布的重要性。本研究还概述了CR-WSN中的安全问题,特别是在频谱感知数据伪造(SSDF)攻击中,该攻击对频谱感知和频谱共享造成了有害影响。利用Matlab和Netsim模拟器,采用OR规则作为四种类型的CRSN传感原球茎在温室中的应用。我们的研究结果表明,在温室中设计平衡的无线传感器及其水槽对于降低能量非常重要,这是由于水槽区域的交通堵塞造成的。此外,与认知无线电网络相比,应用OR规则提高了能量消耗,提高了传感器网络的寿命。
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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