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首页> 外文期刊>Wireless personal communications: An Internaional Journal >Energy Efficient SOCGO Protocol for Hole Repair Node Scheduling in Reliable Sensor System
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Energy Efficient SOCGO Protocol for Hole Repair Node Scheduling in Reliable Sensor System

机译:可靠传感器系统中孔修复节点调度的节能SOCGO协议

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摘要

A sensor node in the wireless sensor network (WSN) has an inadequate energy, and it cannot be interchanged due to the arbitrary placement, so the objective is to extend the network lifetime. An inadequate energy becomes a crucial problem to solve energy efficiency in WSN. In this work, we propose a new Self-Organizing Cluster based Greedy best-first search Opportunistic routing (SOCGO) protocol for balanced energy routing. In our proposed work, the operation of work is divided into four stages for energy balanced routing. They are Sleep state, active state, guard state and death state. The residual energy consumed through the examining adjacent nodes is presented as an aspect to estimate the detection rate, and it can achieve through the novel approach named as hybrid K-means and Greedy best-first search algorithm. Furthermore, the presence of coverage holes pairs within WSN can be recovered through an Opportunistic routing algorithm. This method repairs the coverage hole pairs and improves the network lifetime. Then this proposed SOCGO protocol can be implemented in both the homogeneous and heterogeneous environment. Simulation outcomes deliberates that our proposed SOCGO algorithm attains enhanced performance regarding the network lifetime, throughput, energy consumption, average end to end delay and packet delivery ratio.
机译:无线传感器网络(WSN)中的传感器节点具有不充分的能量,并且由于任意放置而不能互换,因此目标是扩展网络寿命。能量不足成为解决WSN中能效的重要问题。在这项工作中,我们提出了一种新的自组织基于集群的贪婪最佳首先搜索机会主义路由(SoCGo)协议,用于平衡能量路由。在我们拟议的工作中,工作的运作分为四个能量平衡路由的阶段。它们是睡眠状态,活跃状态,保护状态和死亡状态。通过检查相邻节点消耗的剩余能量作为估计检测率的方面,并且可以通过名称为混合k均值和贪婪最佳搜索算法的新方法来实现。此外,可以通过机会路由算法恢复WSN内的覆盖孔对的存在。该方法修复覆盖孔对并改善网络寿命。然后,这一提出的SoCGo协议可以在均匀和异构环境中实现。仿真结果刻意,我们所提出的SoCO算法在网络寿命,吞吐量,能耗,平均结束到最终延迟和分组传递比率方面获得了增强的性能。

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