Nontechnical loss detection for metered customers in power utility using support vector machines
Electricity consumer dishonesty is a problem faced by all power utilities. Finding efficient measurements for detecting fraudulent electricity consumption has been an active research area in recent years. This paper presents a new approach towards nontechnical loss (NTL) detection in power utilities...
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my.uniten.dspace-307222023-12-29T15:51:55Z Nontechnical loss detection for metered customers in power utility using support vector machines Nagi J. Yap K.S. Tiong S.K. Ahmed S.K. Mohamad M. 25825455100 24448864400 15128307800 25926812900 24448533500 Electricity theft Intelligent system Load profiling Nontechnical loss Pattern classification Customer satisfaction Electric load forecasting Feature extraction Gears Inspection Intelligent systems Multilayer neural networks Sales Support vector machines Abnormal behavior Customer consumption data Customer load profiles Distribution sector Electricity consumers Electricity theft Electricity-consumption Fraud detection Fraud detection system Highly-correlated Malaysia Model testing New approaches Non-technical loss On-site inspection Pattern classification Power utility Research areas Research studies Crime Electricity consumer dishonesty is a problem faced by all power utilities. Finding efficient measurements for detecting fraudulent electricity consumption has been an active research area in recent years. This paper presents a new approach towards nontechnical loss (NTL) detection in power utilities using an artificial intelligence based technique, support vector machine (SVM). The main motivation of this study is to assist Tenaga Nasional Berhad (TNB) Sdn. Bhd. in peninsular Malaysia to reduce its NTLs in the distribution sector due to abnormalities and fraud activities, i.e., electricity theft. The fraud detection model (FDM) developed in this research study preselects suspected customers to be inspected onsite fraud based on irregularities in consumption behavior. This approach provides a method of data mining, which involves feature extraction from historical customer consumption data. This SVM based approach uses customer load profile information and additional attributes to expose abnormal behavior that is known to be highly correlated with NTL activities. The result yields customer classes which are used to shortlist potential suspects for onsite inspection based on significant behavior that emerges due to fraud activities. Model testing is performed using historical kWh consumption data for three towns within peninsular Malaysia. Feedback from TNB Distribution (TNBD) Sdn. Bhd. for onsite inspection indicates that the proposed method is more effective compared to the current actions taken by them. With the implementation of this new fraud detection system TNBD's detection hitrate will increase from 3% to 60%. � 2010 IEEE. Final 2023-12-29T07:51:55Z 2023-12-29T07:51:55Z 2010 Article 10.1109/TPWRD.2009.2030890 2-s2.0-77950188492 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77950188492&doi=10.1109%2fTPWRD.2009.2030890&partnerID=40&md5=70a42c7ec2f63999ad88f40a06ef15d0 https://irepository.uniten.edu.my/handle/123456789/30722 25 2 5286297 1162 1171 Scopus |
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Electricity theft Intelligent system Load profiling Nontechnical loss Pattern classification Customer satisfaction Electric load forecasting Feature extraction Gears Inspection Intelligent systems Multilayer neural networks Sales Support vector machines Abnormal behavior Customer consumption data Customer load profiles Distribution sector Electricity consumers Electricity theft Electricity-consumption Fraud detection Fraud detection system Highly-correlated Malaysia Model testing New approaches Non-technical loss On-site inspection Pattern classification Power utility Research areas Research studies Crime |
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Electricity theft Intelligent system Load profiling Nontechnical loss Pattern classification Customer satisfaction Electric load forecasting Feature extraction Gears Inspection Intelligent systems Multilayer neural networks Sales Support vector machines Abnormal behavior Customer consumption data Customer load profiles Distribution sector Electricity consumers Electricity theft Electricity-consumption Fraud detection Fraud detection system Highly-correlated Malaysia Model testing New approaches Non-technical loss On-site inspection Pattern classification Power utility Research areas Research studies Crime Nagi J. Yap K.S. Tiong S.K. Ahmed S.K. Mohamad M. Nontechnical loss detection for metered customers in power utility using support vector machines |
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Electricity consumer dishonesty is a problem faced by all power utilities. Finding efficient measurements for detecting fraudulent electricity consumption has been an active research area in recent years. This paper presents a new approach towards nontechnical loss (NTL) detection in power utilities using an artificial intelligence based technique, support vector machine (SVM). The main motivation of this study is to assist Tenaga Nasional Berhad (TNB) Sdn. Bhd. in peninsular Malaysia to reduce its NTLs in the distribution sector due to abnormalities and fraud activities, i.e., electricity theft. The fraud detection model (FDM) developed in this research study preselects suspected customers to be inspected onsite fraud based on irregularities in consumption behavior. This approach provides a method of data mining, which involves feature extraction from historical customer consumption data. This SVM based approach uses customer load profile information and additional attributes to expose abnormal behavior that is known to be highly correlated with NTL activities. The result yields customer classes which are used to shortlist potential suspects for onsite inspection based on significant behavior that emerges due to fraud activities. Model testing is performed using historical kWh consumption data for three towns within peninsular Malaysia. Feedback from TNB Distribution (TNBD) Sdn. Bhd. for onsite inspection indicates that the proposed method is more effective compared to the current actions taken by them. With the implementation of this new fraud detection system TNBD's detection hitrate will increase from 3% to 60%. � 2010 IEEE. |
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25825455100 |
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25825455100 Nagi J. Yap K.S. Tiong S.K. Ahmed S.K. Mohamad M. |
| format |
Article |
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Nagi J. Yap K.S. Tiong S.K. Ahmed S.K. Mohamad M. |
| author_sort |
Nagi J. |
| title |
Nontechnical loss detection for metered customers in power utility using support vector machines |
| title_short |
Nontechnical loss detection for metered customers in power utility using support vector machines |
| title_full |
Nontechnical loss detection for metered customers in power utility using support vector machines |
| title_fullStr |
Nontechnical loss detection for metered customers in power utility using support vector machines |
| title_full_unstemmed |
Nontechnical loss detection for metered customers in power utility using support vector machines |
| title_sort |
nontechnical loss detection for metered customers in power utility using support vector machines |
| publishDate |
2023 |
| _version_ |
1806426029911179264 |