Selection of proper activation functions in back-propagation neural networks algorithm for transformer internal fault locations

This paper presents an analysis on the selection of an appropriate activation function used in neural networks for locating the internal fault in a two-winding three-phase transformer. A decision algorithm based on a combination of Discrete Wavelet Transforms and neural networks is developed. Fault...

Full description

Saved in:
Bibliographic Details
Main Authors: Jettanasen, C., Pothisarn, C., Bunjongjit, S., Ngaopitakkul, A., Suechoey, B.
Format: Conference Proceeding
Language:English
Subjects:
Back-propagation neural network
Discrete Wavelet Transforms
Internal faults
Transformer windings
Online Access:Request full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:This paper presents an analysis on the selection of an appropriate activation function used in neural networks for locating the internal fault in a two-winding three-phase transformer. A decision algorithm based on a combination of Discrete Wavelet Transforms and neural networks is developed. Fault conditions of the transformer are simulated using ATP/EMTP in order to obtain current signals. The training process for the neural network and fault diagnosis decision are implemented using toolboxes on MATLAB/Simulink. Various activation functions in hidden layers and output layers are compared in order to find out and to select the best activation function for indicating the position of internal faults of the winding transformer for the winding to ground faults. It is found that the use of Hyperbolic tangent-function for the hidden layers, and Linear activation function for the output layer gives the most satisfactory accuracy in these particular case studies.
DOI:10.1109/SCIS-ISIS.2012.6505120