Enhancing Energy Efficiency in Cluster Based WSN using Grey Wolf Optimization

IF 1.7 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Ashok Kumar Rai, Lalit Kumar Tyagi, Anoop Kumar, Swapnita Srivastava, Naushen Fatima
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引用次数: 0

Abstract

Wireless sensor networks (WSNs) are typically made up of small, low-power sensor nodes (SNs) equipped with capability for wireless communication, processing, and sensing. These nodes collaborate with each other to form a self-organizing network. They can collect data from their surrounding environment, such as temperature, humidity, light intensity, or motion, and transmit it to a central base station (BS) or gateway for additional processing and analysis. LEACH and TSEP are examples of cluster-based protocols developed for WSNs. These protocols require careful design and optimization of CH selection algorithms, considering factors such as energy consumption, network scalability, data aggregation, load balancing, fault tolerance, and adaptability to dynamic network conditions. Various research efforts have been made to develop efficient CH selection algorithms in WSNs, considering these challenges and trade-offs. In this paper, the Grey Wolf Optimization (GWO) algorithm is employed to address the problem of selecting CHs (CHs) in WSNs. The proposed approach takes into account two parameters: Residual Energy (RE) and the distance of node (DS)s from the BS. By visualizing and analyzing the GWO algorithm under variable parameters in WSNs, this research identifies the most appropriate node from all normal nodes for CH selection. The experimental results demonstrate that the proposed model, utilizing GWO, outperforms other approaches in terms of performance.
利用灰狼优化提高聚类WSN的能效
无线传感器网络(wsn)通常由具有无线通信、处理和传感能力的小、低功耗传感器节点(SNs)组成。这些节点相互协作,形成一个自组织网络。它们可以从周围环境中收集数据,如温度、湿度、光照强度或运动,并将其传输到中央基站(BS)或网关,以进行额外的处理和分析。LEACH和TSEP是为无线传感器网络开发的基于集群的协议的例子。这些协议需要仔细设计和优化CH选择算法,考虑能耗、网络可扩展性、数据聚合、负载均衡、容错和对动态网络条件的适应性等因素。考虑到这些挑战和权衡,已经进行了各种研究工作,以开发有效的无线传感器网络中的CH选择算法。本文采用灰狼优化(GWO)算法来解决无线传感器网络中CHs的选择问题。该方法考虑了两个参数:剩余能量(RE)和节点到极点的距离(DS)s。通过可视化和分析WSNs变参数下的GWO算法,从所有正常节点中识别出最适合CH选择的节点。实验结果表明,利用GWO的模型在性能上优于其他方法。
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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来源期刊
CiteScore
1.40
自引率
0.00%
发文量
22
审稿时长
4 weeks
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