Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition
Developing an accurate partial discharge (PD) monitoring system for switchgear has attracted significant attention in recent times. Detecting and distinguishing PDs with a portable PD detector is challenging due to the inherent noise interference and the similarity among different PD signals in fiel...
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sg-ntu-dr.10356-1762362024-05-14T05:04:28Z Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition Ji, Jinsheng Shu, Zhou Li, Hongqun Lai, Kai Xian Lu, Minshan Jiang, Guanlin Wang, Wensong Zheng, Yuanjin Jiang, Xudong School of Electrical and Electronic Engineering Engineering Knowledge distillation Multitask learning Developing an accurate partial discharge (PD) monitoring system for switchgear has attracted significant attention in recent times. Detecting and distinguishing PDs with a portable PD detector is challenging due to the inherent noise interference and the similarity among different PD signals in field conditions. In this study, we propose an innovative approach that combines knowledge distillation (KD) and multitask learning (MTL) to efficiently transfer valuable insights acquired by an advanced network to a more lightweight student network. Notably, a novel energy-adaptive sampling strategy is applied to frequency feature to represent acquired pulse waveforms efficiently. Furthermore, a novel spatial information distillation module is also proposed to enhance the knowledge transfer, thereby enhancing PD recognition efficiency and accuracy. Signals captured in substations undergo clustering through a k-means model, effectively separating PDs from noise. Using the phase resolved PD (PRPD) patterns generated from clustered signals, we train our PD classification network. With the integration of KD and MTL modules, our PD classification model outperforms the baseline model in terms of both speed and accuracy. A comprehensive assessment of each proposed module was conducted through ablation studies in our experiments. Furthermore, our constructed PD recognition dataset was used to conduct a comparative analysis against other methodologies, showcasing the superior performance of our approach. Energy Market Authority (EMA) National Research Foundation (NRF) This work was supported in part by the Singapore Power Group and the National Research Foundation, Singapore; in part by the Energy Market Authority under its Energy Program (EP Award EMA-EP010-SNJL-004); and in part by the Nanyang Technological University. 2024-05-14T05:04:28Z 2024-05-14T05:04:28Z 2024 Journal Article Ji, J., Shu, Z., Li, H., Lai, K. X., Lu, M., Jiang, G., Wang, W., Zheng, Y. & Jiang, X. (2024). Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition. IEEE Transactions On Instrumentation and Measurement, 73, 5008011-. https://dx.doi.org/10.1109/TIM.2024.3351239 0018-9456 https://hdl.handle.net/10356/176236 10.1109/TIM.2024.3351239 2-s2.0-85182353981 73 5008011 en EMA-EP010-SNJL-004 IEEE Transactions on Instrumentation and Measurement © 2024 IEEE. All rights reserved. |
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Engineering Knowledge distillation Multitask learning |
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Engineering Knowledge distillation Multitask learning Ji, Jinsheng Shu, Zhou Li, Hongqun Lai, Kai Xian Lu, Minshan Jiang, Guanlin Wang, Wensong Zheng, Yuanjin Jiang, Xudong Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition |
| description |
Developing an accurate partial discharge (PD) monitoring system for switchgear has attracted significant attention in recent times. Detecting and distinguishing PDs with a portable PD detector is challenging due to the inherent noise interference and the similarity among different PD signals in field conditions. In this study, we propose an innovative approach that combines knowledge distillation (KD) and multitask learning (MTL) to efficiently transfer valuable insights acquired by an advanced network to a more lightweight student network. Notably, a novel energy-adaptive sampling strategy is applied to frequency feature to represent acquired pulse waveforms efficiently. Furthermore, a novel spatial information distillation module is also proposed to enhance the knowledge transfer, thereby enhancing PD recognition efficiency and accuracy. Signals captured in substations undergo clustering through a k-means model, effectively separating PDs from noise. Using the phase resolved PD (PRPD) patterns generated from clustered signals, we train our PD classification network. With the integration of KD and MTL modules, our PD classification model outperforms the baseline model in terms of both speed and accuracy. A comprehensive assessment of each proposed module was conducted through ablation studies in our experiments. Furthermore, our constructed PD recognition dataset was used to conduct a comparative analysis against other methodologies, showcasing the superior performance of our approach. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Ji, Jinsheng Shu, Zhou Li, Hongqun Lai, Kai Xian Lu, Minshan Jiang, Guanlin Wang, Wensong Zheng, Yuanjin Jiang, Xudong |
| format |
Article |
| author |
Ji, Jinsheng Shu, Zhou Li, Hongqun Lai, Kai Xian Lu, Minshan Jiang, Guanlin Wang, Wensong Zheng, Yuanjin Jiang, Xudong |
| author_sort |
Ji, Jinsheng |
| title |
Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition |
| title_short |
Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition |
| title_full |
Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition |
| title_fullStr |
Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition |
| title_full_unstemmed |
Edge-computing-based knowledge distillation and multitask learning for partial discharge recognition |
| title_sort |
edge-computing-based knowledge distillation and multitask learning for partial discharge recognition |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/176236 |
| _version_ |
1800916267013505024 |