LBRP:水下传感器网络(UWSNS)的弹性能量收集噪声感知路由协议

M. Islam, M. Biswas, Md. Julkar Nayeen Mahi
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引用次数: 4

摘要

水下探测器网络是该领域最具挑战性和最具吸引力的分析领域之一,为该领域的众多研究人员打开了一扇令人愉悦的大门。在一些水下传感器应用中,节点是方形测量的,并通过这种方式影响能量。因此,每个传感器节点的移动性是通过基于传感器协议形成的水流的水大气来测量的。研究人员已经开发了许多路由协议。然而,随着时间的推移,它们失去了魅力。为水下执行器网络提供节能、可提升的强路由协议是时代的要求。在此工作中,作者倾向于提出一种习惯的路由协议,即基于层次的路由协议(level - based routing protocol, LBRP),以提供强大的、可上升的和节能的路由。与其他路由协议相比,LBRP共同保证了总能耗的最有效利用,并确保了数据包传输的重定向作为额外的可靠性。在本工作中,作者使用转发节点级别、剩余能量和转发节点到引起节点的距离作为多播技术比较的证明。在整个工作过程中,作者在节点组播性能上获得了平均约86.35%的识别结果。在安静的气氛中进行了模拟,这代表了对计划协议更高性能的认可
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LBRP : A Resilient Energy Harvesting Noise Aware Routing Protocol for Under Water Sensor Networks (UWSNS)
Underwater detector network is one amongst the foremost difficult and fascinating analysis arenas that open the door of pleasing plenty of researchers during this field of study. In several under water based sensor applications, nodes are square measured and through this the energy is affected. Thus, the mobility of each sensor nodes are measured through the water atmosphere from the water flow for sensor based protocol formations. Researchers have developed many routing protocols. However, those lost their charm with the time. This can be the demand of the age to supply associate degree upon energy-efficient and ascendable strong routing protocol for under water actuator networks. During this work, the authors tend to propose a customary routing protocol named level primarily based routing protocol (LBRP), reaching to offer strong, ascendable and energy economical routing. LBRP conjointly guarantees the most effective use of total energy consumption and ensures packet transmission which redirects as an additional reliability in compare to different routing protocols. In this work, the authors have used the level of forwarding node, residual energy and distance from the forwarding node to the causing node as a proof in multicasting technique comparisons. Throughout this work, the authors have got a recognition result concerning about 86.35% on the average in node multicasting performances. Simulation has been experienced each in a wheezy and quiet atmosphere which represents the endorsement of higher performance for the planned protocol
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