Power flow classification for static security assessment

Author

Niebur, Dagmar ; Germond, Alain J.

Author_Institution

Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA

fYear

1991

fDate

23-26 Jul 1991

Firstpage

83

Lastpage

88

Abstract

The authors investigate the classification of power system states using an artificial neural network model, Kohonen´s self-organizing feature map. The ultimate goal of this classification is to assess power system static security in real-time. Kohonen´s self-organizing feature map is an unsupervised neural network which maps N-dimensional input vectors to an array of M neurons. After learning, the synaptic weight vectors exhibit a topological organization which represents the relationship between the vectors of the training set. This learning is unsupervised, which means that the number and size of the classes are not specified beforehand. In the application developed, the input vectors used as the training set are generated by off-line load-flow simulations. The learning algorithm and the results of the organization are discussed

Keywords

load flow; neural nets; power system analysis computing; self-organising feature maps; Kohonen´s self-organizing feature map; M neurons; N-dimensional input vectors; artificial neural network; learning algorithm; power flow classification; power system static security; real-time; static security assessment; synaptic weight vectors; Artificial neural networks; Load flow; Monitoring; Power system dynamics; Power system modeling; Power system security; Power system simulation; Power system stability; Power systems; Prototypes;

fLanguage

English

Publisher

ieee

Conference_Titel

Neural Networks to Power Systems, 1991., Proceedings of the First International Forum on Applications of

Conference_Location

Seattle, WA

Print_ISBN

0-7803-0065-3

Type

conf

DOI

10.1109/ANN.1991.213502

Filename

213502