Application of Support Vector Machine Classification to Enhanced Protection Relay Logic in Electric Power Grids

S the power systems in the United States become increasingly large, complex, and interconnected, the traditional relays are proving to be inadequate during conditions prior and during the blackouts. Smart relays, which are more intelligent, are therefore needed to meet the security and reliability n...

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Bibliographic Details
Published in2007 Large Engineering Systems Conference on Electric Power Engineering pp. 31 - 38
Main Authors Yi Zhang, Ilic, M.D., Tonguz, O.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.10.2007
Subjects
Critical network infrastructures
Cyber Physical Systems (CPS)
Large electric power systems
Logic
Monte Carlo simulations
Power system interconnection
Power system protection
Power system relaying
Power system reliability
Power system security
Power systems
Protective relaying
Scalability
Support vector machine classification
Support vector machines
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ISBN9781424415823
1424415829
DOI10.1109/LESCPE.2007.4437348

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Summary:S the power systems in the United States become increasingly large, complex, and interconnected, the traditional relays are proving to be inadequate during conditions prior and during the blackouts. Smart relays, which are more intelligent, are therefore needed to meet the security and reliability needs of the future power grid. The goal of classification of smart relays is to build a model which can discriminate the normal conditions from the fault conditions based on the measurements which can be obtained locally. In this paper we propose a decision algorithm based on applying support vector machine (SVM) classification in protection relays. Our proposed method is both efficient and provably scalable.
ISBN:9781424415823
1424415829
DOI:10.1109/LESCPE.2007.4437348