Title :
A neural network approach to fault diagnosis for power systems
Author_Institution :
Power Dispatching & Commun. Bur., Northeast China Electr. Power Adm., Shenyang, China
Abstract :
An approach to fault diagnosis for large scale power systems is presented, based on hierarchical distributed neural networks. Several independent neural networks in the same level are used to diagnose the faults within a substation. One higher level neural network which makes use of some outputs from lower level as its inputs is used to diagnose the faults in transmission lines. A combined gradient learning algorithm with advantages of both gradient and conjugate gradient algorithms is employed for training the neural networks. This learning algorithm converges faster than the error back propagation algorithm. Comparisons between the proposed approach and the single neural network approach are made for a model substation and a model power system. Simulation results show that this approach is very encouraging.<>
Keywords :
conjugate gradient methods; failure analysis; neural nets; power system analysis computing; power system reliability; power transmission lines; combined gradient learning algorithm; conjugate gradient algorithms; error back propagation algorithm; fault diagnosis; hierarchical distributed neural networks; higher level neural network; independent neural networks; learning algorithm; model power system; model substation; neural network approach; power systems; training; transmission lines; Backpropagation algorithms; Circuit faults; Diagnostic expert systems; Fault diagnosis; Neural networks; Power system faults; Power system modeling; Power system relaying; Power system simulation; Substations;
Conference_Titel :
TENCON '93. Proceedings. Computer, Communication, Control and Power Engineering.1993 IEEE Region 10 Conference on
Conference_Location :
Beijing, China
Print_ISBN :
0-7803-1233-3
DOI :
10.1109/TENCON.1993.320155
