Mathematical morphology-based islanding detection for distributed generation

This study proposes a novel method based on mathematical morphology (MM) for islanding detection in micro-grid integrated with distributed generation (DG). The method uses basic MM operators like dilate erode difference filter (DEDF) to operate on three-phase voltage and current signals on target DG...

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Published in:IET generation, transmission & distribution transmission & distribution, 2016-02, Vol.10 (2), p.518-525
Main Authors: Farhan, Musliyarakath Aneesa, Shanti Swarup, K
Format: Article
Language:English
Subjects:
close open difference filter
Computation
dilate erode difference filter
Distributed generation
distributed power generation
Electric potential
Electric power distribution
Electric power systems
fault location
filtering theory
Mathematical models
mathematical morphology
mathematical morphology based islanding detection
MM ratio index
negative sequence voltage
Operators (mathematics)
power distribution faults
three phase current signal
three phase voltage signal
Voltage
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cited_by cdi_FETCH-LOGICAL-c4015-7f60c2f55d192ec252ab3c5bbc65a9a6fe149131ce154e91022c1e21e799363c3
cites cdi_FETCH-LOGICAL-c4015-7f60c2f55d192ec252ab3c5bbc65a9a6fe149131ce154e91022c1e21e799363c3
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container_title IET generation, transmission & distribution
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creator Farhan, Musliyarakath Aneesa
Shanti Swarup, K
description This study proposes a novel method based on mathematical morphology (MM) for islanding detection in micro-grid integrated with distributed generation (DG). The method uses basic MM operators like dilate erode difference filter (DEDF) to operate on three-phase voltage and current signals on target DG location. These filter output values are fed to a new operator defined as the average of the difference between maximum and minimum value of DEDF at each structuring element called KV and KI. Accordingly, a new operator called the MM ratio index (MM RI) of KI to KV is derived. The MM RI computed is used to track the islanding condition from non-islanding condition. Additionally, to further aid the islanding detection, a mathematical morphological operator close open difference filter on negative sequence voltage is computed, which is passed through a difference operator D. The proposed method is analysed extensively to efficiently detect islanding in electrical power distribution network integrated with DG.
doi_str_mv 10.1049/iet-gtd.2015.0910
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source Wiley Online Library Open Access
subjects close open difference filter
Computation
dilate erode difference filter
Distributed generation
distributed power generation
Electric potential
Electric power distribution
Electric power systems
fault location
filtering theory
Mathematical models
mathematical morphology
mathematical morphology based islanding detection
MM ratio index
negative sequence voltage
Operators (mathematics)
power distribution faults
three phase current signal
three phase voltage signal
Voltage
title Mathematical morphology-based islanding detection for distributed generation
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