Improving SVM-based nontechnical loss detection in power utility using the fuzzy inference system
This letter extends previous research work in modeling a nontechnical loss (NTL) framework for the detection of fraud and electricity theft in power distribution utilities. Previous work was carried out by using a support vector machine (SVM)-based NTL detection framework resulting in a detection hi...
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my.uniten.dspace-304562023-12-29T15:48:02Z Improving SVM-based nontechnical loss detection in power utility using the fuzzy inference system Nagi J. Yap K.S. Tiong S.K. Ahmed S.K. Nagi F. 25825455100 24448864400 15128307800 25926812900 56272534200 Computational intelligence system fuzzy logic nontechnical loss pattern classification Artificial intelligence Computer crime Crime Engineering research Fuzzy systems Computational intelligence Cost effective Detection framework Electricity theft Fraud detection Fuzzy if-then rules Fuzzy inference systems Human knowledge Non-technical loss pattern classification Post-processing scheme Power distributions Power utility Fuzzy inference This letter extends previous research work in modeling a nontechnical loss (NTL) framework for the detection of fraud and electricity theft in power distribution utilities. Previous work was carried out by using a support vector machine (SVM)-based NTL detection framework resulting in a detection hitrate of 60%. This letter presents the inclusion of human knowledge and expertise into the SVM-based fraud detection model (FDM) with the introduction of a fuzzy inference system (FIS), in the form of fuzzy if-then rules. The FIS acts as a postprocessing scheme for short-listing customer suspects with higher probabilities of fraud activities. With the implementation of this improved SVM-FIS computational intelligence FDM, Tenaga Nasional Berhad Distribution's detection hitrate has increased from 60% to 72%, thus proving to be cost effective. � 2011 IEEE. Final 2023-12-29T07:48:02Z 2023-12-29T07:48:02Z 2011 Article 10.1109/TPWRD.2010.2055670 2-s2.0-79953193105 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79953193105&doi=10.1109%2fTPWRD.2010.2055670&partnerID=40&md5=813cf138b87b5715fff8dbc7e9c897e9 https://irepository.uniten.edu.my/handle/123456789/30456 26 2 5738432 1284 1285 Scopus |
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Computational intelligence system fuzzy logic nontechnical loss pattern classification Artificial intelligence Computer crime Crime Engineering research Fuzzy systems Computational intelligence Cost effective Detection framework Electricity theft Fraud detection Fuzzy if-then rules Fuzzy inference systems Human knowledge Non-technical loss pattern classification Post-processing scheme Power distributions Power utility Fuzzy inference |
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Computational intelligence system fuzzy logic nontechnical loss pattern classification Artificial intelligence Computer crime Crime Engineering research Fuzzy systems Computational intelligence Cost effective Detection framework Electricity theft Fraud detection Fuzzy if-then rules Fuzzy inference systems Human knowledge Non-technical loss pattern classification Post-processing scheme Power distributions Power utility Fuzzy inference Nagi J. Yap K.S. Tiong S.K. Ahmed S.K. Nagi F. Improving SVM-based nontechnical loss detection in power utility using the fuzzy inference system |
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This letter extends previous research work in modeling a nontechnical loss (NTL) framework for the detection of fraud and electricity theft in power distribution utilities. Previous work was carried out by using a support vector machine (SVM)-based NTL detection framework resulting in a detection hitrate of 60%. This letter presents the inclusion of human knowledge and expertise into the SVM-based fraud detection model (FDM) with the introduction of a fuzzy inference system (FIS), in the form of fuzzy if-then rules. The FIS acts as a postprocessing scheme for short-listing customer suspects with higher probabilities of fraud activities. With the implementation of this improved SVM-FIS computational intelligence FDM, Tenaga Nasional Berhad Distribution's detection hitrate has increased from 60% to 72%, thus proving to be cost effective. � 2011 IEEE. |
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25825455100 |
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25825455100 Nagi J. Yap K.S. Tiong S.K. Ahmed S.K. Nagi F. |
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Nagi J. Yap K.S. Tiong S.K. Ahmed S.K. Nagi F. |
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Nagi J. |
title |
Improving SVM-based nontechnical loss detection in power utility using the fuzzy inference system |
title_short |
Improving SVM-based nontechnical loss detection in power utility using the fuzzy inference system |
title_full |
Improving SVM-based nontechnical loss detection in power utility using the fuzzy inference system |
title_fullStr |
Improving SVM-based nontechnical loss detection in power utility using the fuzzy inference system |
title_full_unstemmed |
Improving SVM-based nontechnical loss detection in power utility using the fuzzy inference system |
title_sort |
improving svm-based nontechnical loss detection in power utility using the fuzzy inference system |
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2023 |
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1806424424396619776 |
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