Fault Detection using hybrid of KF-ELM for Wireless Sensor Networks

P. Biswas, Raghavaraju Charitha, S. Gavel, A. S. Raghuvanshi
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引用次数: 10

Abstract

The adoption of data aggregation depending on data fusion and data acquisition for wireless sensor networks (WSN) is increasing these days. While in WSN, the sensor node senses data and send them to the end node. The application of WSN gets limited due to its features such as low-cost sensor nodes, limited battery backups. The usage of sensor nodes in WSN becomes prone to faulty behavior due to its resource constraint and easily gets defected. Predictive detection using data fusion can be a better choice in order to detect the fault with low transmission energy and low power usage. Considering the conditions of the sensor node with its limited capacity of storing and processing of data, a hybrid predictive classification technique is proposed by using the Kalman filter with Extreme learning machine. Here for data fusion Kalman filter is used to train the sink node with the faulty pattern of data in place of training it with the larger amount. In addition, Extreme learning machine (ELM) is used as a predictive classifier, which can provide a high prediction with low communication overhead. The proposed work is evaluated using standard WSN data by inserting random anomalies to it. The performance is measured in terms of detection accuracy and computational time.
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基于混合KF-ELM的无线传感器网络故障检测
近年来,基于数据融合和数据采集的数据聚合在无线传感器网络(WSN)中的应用越来越多。而在WSN中,传感器节点感知数据并将其发送到终端节点。由于传感器节点成本低、备用电池有限等特点,无线传感器网络的应用受到了限制。在无线传感器网络中,由于资源的限制,传感器节点的使用容易出现错误行为,容易出现缺陷。对于低传输能量、低功耗的故障检测,采用数据融合的预测检测是一种较好的选择。针对传感器节点存储和处理数据能力有限的情况,提出了一种基于卡尔曼滤波和极限学习机的混合预测分类技术。在数据融合中,采用卡尔曼滤波对数据模式错误的汇聚节点进行训练,而不是对数据量较大的汇聚节点进行训练。此外,使用极限学习机(Extreme learning machine, ELM)作为预测分类器,可以在低通信开销的情况下提供高预测。通过在标准WSN数据中插入随机异常,对所提出的工作进行评估。性能是根据检测精度和计算时间来衡量的。
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