A novel fault location technique based on current signals only for thyristor controlled series compensated transmission lines using wavelet analysis and self organising map neural networks
Cheong, W. J. and Aggarwal, R. K., 2004. A novel fault location technique based on current signals only for thyristor controlled series compensated transmission lines using wavelet analysis and self organising map neural networks. In: Developments in Power System Protection, 2004. Eighth IEE International Conference on, 2004-01-01.
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This paper describes the applications of discrete wavelet transforms (DWT) coupled with conventional artificial neural networks (ANN) to the development of a fault location technique under an improved TCSC transmission system model. The fault location scheme is modular based whereby fault type is verified before identifying the fault location using ANN. This method relies on utilising DWT to decompose the line currents obtained from a single terminal into a series of time-scale representations. A feature model using self-organising maps (SOM) is applied herein to verify the fault location capability of the extracted features. Simulation results indicate that this approach can be used as an effective tool for accurate fault location in TCSC systems.
|Item Type||Conference or Workshop Items (Paper)|
|Creators||Cheong, W. J.and Aggarwal, R. K.|
|Uncontrolled Keywords||line current signals,power transmission faults,dwt,thyristor applications,tcsc transmission system model,self-organising feature maps,ann,fault classification,self organising maps,thyristor controlled series compensated transmission lines,som,fault location technique,series of time-scale representations,neural nets,artificial neural networks,fault location,discrete wavelet transforms|
|Departments||Faculty of Engineering & Design > Electronic & Electrical Engineering|
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