Connectivity Analysis of WSN Nodes using Neighborhood Search Technique (WSNNST)

M. Iskandarani
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Abstract

A new approach to wireless sensor network (WSN) communication through multi-hop routing is investigated in this work. The proposed approach utilizes search radius expansion in order to find highest energy nodes within a WSN network and preserves the energy of the lowest energy nodes. This approach which is built on trust in terms of providing good quality communication channels between a source node and a destination node considers energy as one parameter of trust that will enable strong, reliable communication channels and shorter routes to be used in a WSN. This approach enables efficient energy consumption during data communication, but with higher level energy consumption due to expanded search radius, which can be minimized using search time limit. The work also relates through mathematical equations, number of discovered routes, maximum hops, and search time to the considered search radius. The overall objective of this work is to enable faster and efficient channel communication between WSN nodes, through gradual cost effective search in neighborhoods. This is achieved by uncovering shorter and less number of routes within an acceptable time limits. The proposed and simulated approach presented in this work differ in terms of the gradual expansion of search and the equal increments in search radius compared to other used techniques. The presented work also adds a unique feature of allowing re-charging of low energy nodes using the already established routes connecting high energy nodes through the registration of weak nodes locations. A final general expression relates search radius to other WSN variables is also presented.
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基于邻域搜索技术的WSN节点连通性分析
研究了一种基于多跳路由的无线传感器网络通信新方法。该方法利用搜索半径扩展在WSN网络中寻找能量最高的节点,并保留能量最低的节点的能量。这种方法建立在信任的基础上,在源节点和目标节点之间提供高质量的通信通道,将能量作为信任的一个参数,使WSN能够使用强大、可靠的通信通道和更短的路由。该方法在数据通信过程中实现了高效的能源消耗,但由于扩大了搜索半径,因此能耗更高,可以使用搜索时间限制将其最小化。该工作还通过数学方程、发现的路由数量、最大跳数和搜索时间与考虑的搜索半径相关联。本工作的总体目标是通过在邻域中逐步进行成本有效的搜索,实现WSN节点之间更快、更有效的信道通信。这是通过在可接受的时间限制内发现更短、数量更少的路线来实现的。本文提出的方法和模拟的方法在搜索的逐步扩展和搜索半径的等增量方面与其他使用的技术不同。本文的工作还增加了一个独特的功能,即通过注册弱节点位置,使用已经建立的连接高能量节点的路线,允许低能节点重新充电。最后给出了将搜索半径与其他WSN变量关联起来的通用表达式。
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International Journal of Circuits, Systems and Signal Processing
International Journal of Circuits, Systems and Signal Processing Engineering-Electrical and Electronic Engineering
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