基于经验小波变换和误差最小化极限学习机的电能质量事件检测和分类

Q3 Energy

International Journal of Power and Energy Conversion Pub Date : 2019-09-18 DOI:10.1504/ijpec.2019.10024035

M. Sahani

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引用次数: 2

摘要

本文的主要目的是通过经验小波变换（EWT）检测电能质量事件（PQE），并通过误差最小化极限学习机（EMELM）进行分类。采用经验小波变换对非平稳电能质量事件信号进行多分辨率分析。这里，通过将EWT应用于所有频谱分量，获得了不同电源信号的干扰能量指数特征向量，为了分析所提出的方法在理想和噪声环境下的整体效率，通过累积25、35和45dB的噪声，构建了三种类型的PQ事件数据集。极限学习机（ELM）是一种先进高效的分类器，用于识别单个和多个PQ故障类别。新的EWT-EMELM方法基于在理想和噪声环境下的高性能，可以在实际电力系统中实现。通过仿真验证了该方法的可行性。

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Detection and classification of power quality events using empirical wavelet transform and error minimised extreme learning machine

The main purpose of this paper is to detect the power quality events (PQEs) by empirical wavelet transform (EWT) and classify by error minimised extreme learning machine (EMELM). Empirical wavelet transform (EWT) is used to analyse the non-stationary power quality event signals by multi-resolution analysis (MRA). Here, the disturbance energy index feature vector of different electric power supply signals have been acquired by applying the EWT on all the spectral components and to analyse the overall efficiency of the proposed method on both ideal and noisy environments, three types of PQ event data sets are constructed by accumulating the noise of 25, 35 and 45 dB. Extreme learning machine (ELM) is an advanced and efficient classifier, which is implemented to recognise the single as well as multiple PQ fault classes. Based on very high performance under ideal and noisy environment, the new EWT-EMELM method can be implemented in real electrical power systems. The feasibility of proposed method is tested by simulation to verify its cogency.

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来源期刊

International Journal of Power and Energy Conversion Energy-Energy Engineering and Power Technology

CiteScore

1.60

自引率

0.00%

发文量

期刊介绍： IJPEC highlights the latest trends in research in the field of power generation, transmission and distribution. Currently there exist significant challenges in the power sector, particularly in deregulated/restructured power markets. A key challenge to the operation, control and protection of the power system is the proliferation of power electronic devices within power systems. The main thrust of IJPEC is to disseminate the latest research trends in the power sector as well as in energy conversion technologies. Topics covered include: -Power system modelling and analysis -Computing and economics -FACTS and HVDC -Challenges in restructured energy systems -Power system control, operation, communications, SCADA -Power system relaying/protection -Energy management systems/distribution automation -Applications of power electronics to power systems -Power quality -Distributed generation and renewable energy sources -Electrical machines and drives -Utilisation of electrical energy -Modelling and control of machines -Fault diagnosis in machines and drives -Special machines