"High Impedance Fault Detection of Distribution Network by Phasor Measurement Units"
written by Mohsen Ghalei Monfared Zanjani, Hossein Kazemi Karegar, Hasan Ashrafi Niaki, Mina Ghalei Monfared Zanjani,
published by Smart Grid and Renewable Energy, Vol.4 No.3, 2013
has been cited by the following article(s):
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[8] High impedance fault detection and identification based on pattern recognition of phase displacement computation
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[9] High impedance fault detection method based on the short-time Fourier transform
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[11] Detection and Error Analysis of High Impedance Fault Using Wavelet Transform, Traveling Wave and Support Vector Machine
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[12] An intelligent fault detection and classification scheme for distribution lines integrated with distributed generators
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[13] Application of μPMUs for adaptive protection of overcurrent relays in microgrids
[14] Advanced technique in micro grid protection for various fault by using numerical relay
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[16] High impedance fault detection: A review
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[17] High Impedance Fault Detection in Electrical Power Distribution Systems Using Moving Sum Approach
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[18] Open conductor fault detection
[19] High impedance fault detection in power distribution systems with impedance-based methods in frequency domain
[20] A novel high impedance fault detection technique in distribution systems with distributed generators
[21] Analysis of the influence of the window used in the Short-Time Fourier Transform for High Impedance Fault detection
[22] Fault detection and autoline distribution system with Gsm module
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[23] Microgrid protection using Hilbert–Huang transform based-differential scheme
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[24] High Impedance Fault Modelling on 11Kv Feeder Using Matlab Simulink
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[25] HIF detection using wavelet transform, travelling wave and support vector machine
[26] Proposition of an interharmonic-based methodology for high-impedance fault detection in distribution systems
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[27] Development of Hardware in the Loop Real-Time Control Techniques for Hybrid Power Systems Involving Distributed Demands and Sustainable Energy Sources
[28] Identificação de faltas de alta impedância em redes aéreas multiaterradas.
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[29] Application of PMUs for high impedance fault detection of distribution network by considering effect of transformer vector group
[30] Current trends on applications of PMUs in distribution systems
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