Tracking of voltage variations by means of an adaptive filter and fuzzy logic

2016 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC) Pub Date : 2016-11-01 DOI:10.1109/ROPEC.2016.7830610

A. Mejia-Barron, M. Valtierra-Rodríguez, D. Granados-Lieberman, J. Amezquita-Sanchez, C. Perez-Ramirez, D. Camarena-Martinez

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Abstract

Monitoring of voltage variations is a demanding issue for academic and industrial fields due mainly to their negative impact on equipment. In this work, a methodology based on adaptive filter using the least mean squares algorithm for tracking of voltage variations and a fuzzy logic system for automatic classification are proposed. The proposal consists of three stages: 1) denoising through a lowpass filter to remove non-fundamental frequency components, 2) envelope and type of voltage tracking, and 3) final classification according to the IEEE Std. 1159 using a rule-based decision process. In order to validate and test the proposal, a set of synthetic and real signals is used. The obtained results demonstrate the proposal effectiveness to detect and classify voltage variations, even when they are embedded in high level noise. Unlike other reported works, the proposed fuzzy logic system allows the tracking of the voltage variation such as sag, swell, or interruption over time, it means sample to sample.

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利用自适应滤波器和模糊逻辑跟踪电压变化

由于电压变化对设备的负面影响，对学术和工业领域的监测是一个要求很高的问题。本文提出了一种基于最小均方算法的自适应滤波跟踪电压变化的方法和一种用于自动分类的模糊逻辑系统。该提案包括三个阶段:1)通过低通滤波器去噪以去除非基频成分，2)包络线和电压跟踪类型，以及3)根据IEEE标准1159使用基于规则的决策过程进行最终分类。为了验证和测试该建议，使用了一组合成和真实的信号。实验结果表明，该方法可以有效地检测和分类电压变化，即使它们被嵌入高电平噪声中。与其他报道的工作不同，所提出的模糊逻辑系统允许跟踪电压变化，如暂降、膨胀或中断，这意味着样本到样本。

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2016 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC)

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