MANETS中的稳定性和能量感知反向AODV路由协议

2015 IEEE 2nd International Conference on Recent Trends in Information Systems (ReTIS) Pub Date : 2015-07-09 DOI:10.1109/ReTIS.2015.7232935

Sumant Kumar Mohapatra, B. Swain, Sushil Kumar Mahapatra, S. Behera

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引用次数: 6

摘要

大多数多路径随需应变路由协议都是移动自组织网络，由于网络拓扑结构的频繁变化，限制了网络资源，如节点的电池容量、数据包的安全性和网络的可扩展性。本文提出了一种稳定且能量敏感的反向自组织按需距离矢量路由协议(searaodv)。该方法是对现有的反向R-AODV路由协议的改进。它是基于现有R-AODV路由协议的优化，通过计算节点的可靠性因子(RF)，包括能量和路由稳定性感知度量。SEAR-AODV采用射频值高的路径作为数据包的主路径，根据其射频值的降序使用备用路径。它使用了一种新的先make后break的路由维护机制。为了减少路由恢复带来的控制开销。NS2工具的对比研究表明，提出的协议SEAR-AODV提高了数据包的投递率，降低了时延和平均能耗。

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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Stability and energy aware reverse AODV routing protocol in MANETS

Most of the multipath on demand routing protocols are mobile Adhoc Networks suffer due to frequent changes in the network topology confined network resources such as battery capacity of nodes, security of data packets and scalability of the network. This paper has been proposed a stability and Energy Aware Reverse Adhoc On demand Distance Vector (SEAR-AODV) Routing protocol. This method is a modification of existing Reverse R-AODV routing protocol. It is based on optimization of the existing R-AODV routing protocol by computing the reliability factor (RF) of nodes that includes both energy and rout stability aware metric. SEAR-AODV uses the path with high RF value as the primary path to rout the data packets where as secondary paths are used based on the descending order of their RF values. it uses a new make-before-break route maintenance mechanism. In order to reduce the control overhead due to route recovery. a comparative study by NS2 tool signifies that the proposed protocol SEAR-AODV enhances the packet delivery fraction and reduces both the latency as well as the average consumed energy.

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来源期刊

2015 IEEE 2nd International Conference on Recent Trends in Information Systems (ReTIS)

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