A Mobile Agent-Based Architecture for Fault Tolerance in Wireless Sensor Networks

2010 8th Annual Communication Networks and Services Research Conference Pub Date : 2010-05-11 DOI:10.1109/CNSR.2010.26

Sarah Salim, M. Javed, A. Akbar

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引用次数: 5

Abstract

Wireless Sensor Networks (WSNs) are prone to failures as they are usually deployed in remote and unattended environments. To mitigate the effect of these failures, fault tolerance becomes imperative. Nonetheless, it remains to be a second tier activity—it should not undermine the execution of the mission oriented tasks of WSNs through overly taxing their resources. We define architecture for fault tolerance in WSNs that is based on a federation of mobile agents that is used both for diagnostic intelligence and repair regimen, focusing on being lightweight in energy, communication and resources. Mobile agents are classified here as local, metropolitan, and global, providing fault tolerance at node, network and functional levels. Interactions between mobile agents are inspired by honey bee dance language that builds on semantics of errors classification and their demographic distribution. Our quantitative modeling substantiates that the proposed fault tolerance framework mandates minimalist communication through contextualized bee-inspired interactions, achieving adaptive sensitivity, and hysteresis-based stability

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基于移动代理的无线传感器网络容错体系结构

由于无线传感器网络通常部署在远程和无人值守的环境中，因此容易出现故障。为了减轻这些故障的影响，容错变得势在必行。尽管如此，它仍然是第二级活动——它不应该通过过度消耗wsn的资源来破坏其任务导向任务的执行。我们定义了wsn中的容错架构，该架构基于用于诊断智能和修复方案的移动代理联盟，重点是在能量，通信和资源方面的轻量级。移动代理在这里分为本地、城域和全局，在节点、网络和功能级别提供容错。移动代理之间的交互受到蜜蜂舞蹈语言的启发，这种语言建立在错误分类和人口分布的语义上。我们的定量建模证实了所提出的容错框架要求通过情境化的蜜蜂启发的交互实现最少的通信，实现自适应灵敏度和基于滞后的稳定性

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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2010 8th Annual Communication Networks and Services Research Conference

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