1. Fault classifications of MV transmission lines connected to wind farms using non-intrusive fault monitoring techniques on HV utility side.
- Author
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Chang, Hsueh-Hsien
- Subjects
- *
ELECTRIC lines , *WIND power plants , *SUPPORT vector machines , *FAULT currents , *OFFSHORE wind power plants , *ELECTRIC fault location , *CLASSIFICATION - Abstract
The fault classification of medium-voltage transmission lines consisting of wind farms connected to the high-voltage (HV) transmission networks is carried out using the power-spectrum-based hyperbolic S-transform (HST) powerful technique for analysing non-linear and non-stationary fault signals through the non-intrusive monitoring systems. The HST technique extracts the useful features in the time-frequency domain from measuring fault current waveforms of the HV utility side to discriminate the fault types. Parseval's theorem is applied to each HST coefficient to quantify the energy distribution of various fault types for reducing the size of inputs for recognition algorithms. Next, multiclass support vector machines achieve identification. The results have proved that the proposed classification technique is independent of fault resistance, source impedance, and fault inception angles. Extensive simulations are conducted using the electromagnetic transients program to show that the recognition accuracy of the fault classification for all types is up to 96.84%. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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