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Automatic Fault Detection in Industrial Smart Grids Using KNN and Ensemble Classifiers

Year 2023, Volume: 10 Issue: 2, 240 - 252, 31.05.2023
https://doi.org/10.31202/ecjse.1162586

Abstract

The use of sensitive electrical gadgets in industries, buildings, smart cities, and homes has increased drastically in recent years. PQ events such as interruptions, surges, and sags have a high impact on these sensitive devices. The failure of these delicate devices in real-time applications, particularly smart applications, may result in significant damage. The supply quality decreases because of the failure of internal transmission system elements, unbalanced loads, and other outdoor issues such as like weather. Several academics have proposed techniques to analyze these PQ disturbances, including wavelet packets, S-transform, rough sets and neural networks. In all the available algorithms, the classification procedure involves the extraction of a large set of features from the transformed outputs, training the classifier, and finally making a conclusion with the classifier. Because of the involvement of a large number of features, the computational cost of all these methods increases. To reduce complexity and enhance classification efficiency, the proposed method focuses on extracting fewer low-complexity wavelet features from signals. Pattern recognition (PR) methods, such as the wide variety of K-nearest neighbors (KNN) and ensemble classifiers, are used to classify PQ events in this study. The performance of the proposed ML approaches' performance is evaluated at various training and testing rates. Subsequently, the performance of the proposed strategies was compared to that of the current methods to determine the dominance of the proposed approaches.

Supporting Institution

Na

Project Number

Na

References

  • 1. C.Y. Lee and Y.X. Shen: Optimal feature selection for power-quality disturbances classification. IEEE Transactions on Power Delivery26(4), 2342–2351 (2011).
  • 2. Subbarao M.V., Terlapu S.K., Chakravarthy V.V.S.S.S., Satapaty S.C. Pattern Recognition of Time-Varying Signals Using Ensemble Classifiers. In: Chowdary P., Chakravarthy V., Anguera J., Satapathy S., Bhateja V. (eds) Microelectronics, Electromagnetics and Telecommunications. Lecture Notes in Electrical Engineering, vol 655. Springer, Singapore. (2021). https://doi.org/10.1007/978-981-15-3828-5_76.
  • 3. P. K. Dash and M. V. Chilukuri: Hybrid S-transform and Kalman filtering approach for detection and measurement of short duration disturbances in power networks. IEEE Transactions on Instrumentation and Measurement . In 2018 6th International Istanbul Smart Grids and Cities Congress and Fair (ICSG), April, (pp. 39‐43) (2018).
  • 4. F. Ucar, O. F. Alcin, B. Dandil, F. Ata, J. Cordova and R. Arghandeh, "Online power quality events detection using weighted Extreme Learning Machine," 2018 6th International Istanbul Smart Grids and Cities Congress and Fair (ICSG), 2018, pp. 39-43, doi: 10.1109/SGCF.2018.8408938.
  • 5. B. Biswal, P. K. Dash, and B. K. Panigrahi: Power quality disturbance classification using fuzzy C-means algorithm and adaptive particle swarm optimization. IEEE Trans. Ind. Electron. 56(1),212–220 (2009).
  • 6. S. Mishra, C. N. Bhende, and B. K. Panigrahi: Detection and classification of power quality disturbances using S-transform and probabilistic neural network. IEEE Trans. Power Del 23(1), 280–287 (2008).
  • 7. Bhavani, R., & Prabha, N. R. (2017). A hybrid classifier for power quality (PQ) problems using wavelets packet transform (WPT) and artificial neural networks (ANN). 2017 IEEE International Conference on Intelligent Techniques in Control, Optimization and Signal Processing (INCOS). doi:10.1109/itcosp.2017.8303073M.
  • 8. A. S. Masoum, S. Jamali, and N. Ghaffarzadeh: Detection and classification of power quality disturbances using discrete wavelet transform and wavelet networks. IET Sci. Meas. Technol.4 (4), 193–205 (2010).
  • 9. Venkata Subbarao M., Sudheer Kumar T., Raju G.R.L.V.N.S., Samundiswary P. (2020) Power Quality Event Recognition Using Cumulants and Decision Tree classifiers. In: Saini H.S., Singh R.K., Tariq Beg M., Sahambi J.S. (eds) Innovations in Electronics and Communication Engineering. LectureNotes in Networks and Systems, 107. Springer, Singapore. https://doi.org/10.1007/978-981-15-3172-9_55.

Automatic Fault Detection in Industrial Smart Grids Using KNN and Ensemble Classifiers

Year 2023, Volume: 10 Issue: 2, 240 - 252, 31.05.2023
https://doi.org/10.31202/ecjse.1162586

Abstract

The use of sensitive electrical gadgets in industries, buildings, smart cities, and homes has increased drastically in recent years. PQ events such as interruptions, surges, and sags have a high impact on these sensitive devices. The failure of these delicate devices in real-time applications, particularly smart applications, may result in significant damage. The supply quality decreases because of the failure of internal transmission system elements, unbalanced loads, and other outdoor issues such as like weather. Several academics have proposed techniques to analyze these PQ disturbances, including wavelet packets, S-transform, rough sets and neural networks. In all the available algorithms, the classification procedure involves the extraction of a large set of features from the transformed outputs, training the classifier, and finally making a conclusion with the classifier. Because of the involvement of a large number of features, the computational cost of all these methods increases. To reduce complexity and enhance classification efficiency, the proposed method focuses on extracting fewer low-complexity wavelet features from signals. Pattern recognition (PR) methods, such as the wide variety of K-nearest neighbors (KNN) and ensemble classifiers, are used to classify PQ events in this study. The performance of the proposed ML approaches' performance is evaluated at various training and testing rates. Subsequently, the performance of the proposed strategies was compared to that of the current methods to determine the dominance of the proposed approaches.

Project Number

Na

References

  • 1. C.Y. Lee and Y.X. Shen: Optimal feature selection for power-quality disturbances classification. IEEE Transactions on Power Delivery26(4), 2342–2351 (2011).
  • 2. Subbarao M.V., Terlapu S.K., Chakravarthy V.V.S.S.S., Satapaty S.C. Pattern Recognition of Time-Varying Signals Using Ensemble Classifiers. In: Chowdary P., Chakravarthy V., Anguera J., Satapathy S., Bhateja V. (eds) Microelectronics, Electromagnetics and Telecommunications. Lecture Notes in Electrical Engineering, vol 655. Springer, Singapore. (2021). https://doi.org/10.1007/978-981-15-3828-5_76.
  • 3. P. K. Dash and M. V. Chilukuri: Hybrid S-transform and Kalman filtering approach for detection and measurement of short duration disturbances in power networks. IEEE Transactions on Instrumentation and Measurement . In 2018 6th International Istanbul Smart Grids and Cities Congress and Fair (ICSG), April, (pp. 39‐43) (2018).
  • 4. F. Ucar, O. F. Alcin, B. Dandil, F. Ata, J. Cordova and R. Arghandeh, "Online power quality events detection using weighted Extreme Learning Machine," 2018 6th International Istanbul Smart Grids and Cities Congress and Fair (ICSG), 2018, pp. 39-43, doi: 10.1109/SGCF.2018.8408938.
  • 5. B. Biswal, P. K. Dash, and B. K. Panigrahi: Power quality disturbance classification using fuzzy C-means algorithm and adaptive particle swarm optimization. IEEE Trans. Ind. Electron. 56(1),212–220 (2009).
  • 6. S. Mishra, C. N. Bhende, and B. K. Panigrahi: Detection and classification of power quality disturbances using S-transform and probabilistic neural network. IEEE Trans. Power Del 23(1), 280–287 (2008).
  • 7. Bhavani, R., & Prabha, N. R. (2017). A hybrid classifier for power quality (PQ) problems using wavelets packet transform (WPT) and artificial neural networks (ANN). 2017 IEEE International Conference on Intelligent Techniques in Control, Optimization and Signal Processing (INCOS). doi:10.1109/itcosp.2017.8303073M.
  • 8. A. S. Masoum, S. Jamali, and N. Ghaffarzadeh: Detection and classification of power quality disturbances using discrete wavelet transform and wavelet networks. IET Sci. Meas. Technol.4 (4), 193–205 (2010).
  • 9. Venkata Subbarao M., Sudheer Kumar T., Raju G.R.L.V.N.S., Samundiswary P. (2020) Power Quality Event Recognition Using Cumulants and Decision Tree classifiers. In: Saini H.S., Singh R.K., Tariq Beg M., Sahambi J.S. (eds) Innovations in Electronics and Communication Engineering. LectureNotes in Networks and Systems, 107. Springer, Singapore. https://doi.org/10.1007/978-981-15-3172-9_55.
There are 9 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Makaleler
Authors

Venkata Subbarao M. 0000-0001-5840-2190

Challa Ram G. 0000-0002-3790-1318

Ramesh Varma D. 0000-0002-9517-4964

Girish Kumar D. 0000-0002-2430-2834

Prema Kumar M. 0000-0002-8702-8828

Project Number Na
Publication Date May 31, 2023
Submission Date August 18, 2022
Acceptance Date April 3, 2023
Published in Issue Year 2023 Volume: 10 Issue: 2

Cite

IEEE V. S. M., C. R. G., R. V. D., G. K. D., and P. K. M., “Automatic Fault Detection in Industrial Smart Grids Using KNN and Ensemble Classifiers”, El-Cezeri Journal of Science and Engineering, vol. 10, no. 2, pp. 240–252, 2023, doi: 10.31202/ecjse.1162586.
Creative Commons License El-Cezeri is licensed to the public under a Creative Commons Attribution 4.0 license.
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