一种基于遗传算法和支配集的无线传感器网络聚类方案

IF 0.9 4区 计算机科学 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Journal of Internet Technology Pub Date : 2018-07-01 DOI:10.3966/160792642018081904014
Jeng-Shyang Pan, Lingping Kong, Tien-Wen Sung, Pei-wei Tsai, V. Snás̃el
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引用次数: 75

摘要

基本的k中心问题是一个基本的设施选址问题。给定n个具有一定距离的顶点,人们希望在不同的顶点上建立k个设施,以便最小化从顶点到其相应设施的最大距离。这个问题被称为np困难问题,在大型多跳无线传感器网络中,将传感器节点分组成集群是获得可扩展性、降低能耗和获得更好网络性能的重要机制。本文提出了一种基于遗传算法和支配集(GADO)的求解k中心问题的新方法,称为无线传感器网络的GADO方法。对所提出的GADO的评估表明,与众所周知的最远优先遍历方法和仅基于支配集的方法相比,该方法的中心数量有所减少。该算法不仅从中心到汇聚节点的总距离小于其他两种算法,而且还减少了数据延迟,增加了中心的生存期。
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A Clustering Scheme for Wireless Sensor Networks Based on Genetic Algorithm and Dominating Set
The basic K-center problem is a fundamental facility location problem. Given n vertices with some distances, one wants to build k facilities in different vertices, so as to minimize the maximum distance from a vertex to its corresponding facility. This problem is known as the NP-hard problem, and grouping sensor nodes into a cluster is an important mechanism in large multi-hop wireless sensor networks for obtaining scalability, reducing energy consumption, and achieving better network performance. This study proposed a new method for solving the K-center problem based on the Genetic algorithm and dominating (GADO) set, and it is called the GADO method for wireless sensor network. An evaluation of the proposed GADO shows a decrease in the number of the centers compared to the well-known Farthest-first traversal method and dominating set only-based methods. Not only is the total distance from the centers to the sink node less than the other two algorithms, but the proposed GADO also diminishes the data delay and increases the lifetime of the centers.
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来源期刊
Journal of Internet Technology
Journal of Internet Technology COMPUTER SCIENCE, INFORMATION SYSTEMS-TELECOMMUNICATIONS
CiteScore
3.20
自引率
18.80%
发文量
112
审稿时长
13.8 months
期刊介绍: The Journal of Internet Technology accepts original technical articles in all disciplines of Internet Technology & Applications. Manuscripts are submitted for review with the understanding that they have not been published elsewhere. Topics of interest to JIT include but not limited to: Broadband Networks Electronic service systems (Internet, Intranet, Extranet, E-Commerce, E-Business) Network Management Network Operating System (NOS) Intelligent systems engineering Government or Staff Jobs Computerization National Information Policy Multimedia systems Network Behavior Modeling Wireless/Satellite Communication Digital Library Distance Learning Internet/WWW Applications Telecommunication Networks Security in Networks and Systems Cloud Computing Internet of Things (IoT) IPv6 related topics are especially welcome.
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