A one-class Clustering technique for Novelty Detection and Isolation in sensor networks

2017 IEEE International Conference on Computational Intelligence and Virtual Environments for Measurement Systems and Applications (CIVEMSA) Pub Date : 2017-06-26 DOI:10.1109/CIVEMSA.2017.7995292

S. Maleki, C. Bingham

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引用次数: 2

Abstract

A new Cluster-based methodology for real-time Novelty Detection and Isolation (NDI) in sensor networks, is presented. The proposed algorithm enables uniform clustering across time-frames to indicate the presence of a “healthy” network. In the event of novelty, the associated sensor is seen to be clustered in a non-uniform manner with respect other sensors in the network, thereby facilitating fault isolation. Moreover, a statistical approach is proposed to determine a noise tolerance level for reducing false alarms. Performance of the proposed algorithm is examined using datasets obtained from a number of industrial case studies, and the significance for fault detection for such systems is demonstrated. Specifically, it is shown that through a correct selection of the noise tolerance level, an emerging failure is successfully isolated in presence of other abrupt changes that visually might be perceived as indication of a failure.

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一种用于传感器网络新颖性检测和隔离的一类聚类技术

提出了一种基于聚类的传感器网络实时新颖性检测与隔离(NDI)方法。提出的算法支持跨时间框架的统一聚类，以指示“健康”网络的存在。在新颖性的情况下，相关的传感器被视为与网络中的其他传感器以不一致的方式聚类，从而促进故障隔离。此外，提出了一种统计方法来确定减少误报的噪声容限水平。使用从许多工业案例研究中获得的数据集来检验所提出算法的性能，并证明了这种系统的故障检测的意义。具体来说，通过正确选择噪声容差级别，可以成功地将新出现的故障与其他在视觉上可能被视为故障指示的突变分离开来。

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2017 IEEE International Conference on Computational Intelligence and Virtual Environments for Measurement Systems and Applications (CIVEMSA)

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