[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.1016/j.net.2020.09.025

Abnormal state diagnosis model tolerant to noise in plant data

Shin, Ji Hyeon (Department of Nuclear Engineering, Ulsan National Institute of Science and Technology)
Kim, Jae Min (Department of Nuclear Engineering, Ulsan National Institute of Science and Technology)
Lee, Seung Jun (Department of Nuclear Engineering, Ulsan National Institute of Science and Technology)

Publication Information

Nuclear Engineering and Technology / v.53, no.4, 2021 , pp. 1181-1188 More about this Journal

Abstract

When abnormal events occur in a nuclear power plant, operators must conduct appropriate abnormal operating procedures. It is burdensome though for operators to choose the appropriate procedure considering the numerous main plant parameters and hundreds of alarms that should be judged in a short time. Recently, various research has applied deep-learning algorithms to support this problem by classifying each abnormal condition with high accuracy. Most of these models are trained with simulator data because of a lack of plant data for abnormal states, and as such, developed models may not have tolerance for plant data in actual situations. In this study, two approaches are investigated for a deep-learning model trained with simulator data to overcome the performance degradation caused by noise in actual plant data. First, a preprocessing method using several filters was employed to smooth the test data noise, and second, a data augmentation method was applied to increase the acceptability of the untrained data. Results of this study confirm that the combination of these two approaches can enable high model performance even in the presence of noisy data as in real plants.

Keywords

Accident diagnosis; Nuclear power plant; Abnormal operating procedure; neural network;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	S.J. Lee, P.H. Seong, A dynamic neural network based accident diagnosis advisory system for nuclear power plants, Prog. Nucl. Energy 46 (3-4) (2005) 268-281. DOI
2	K.M. Rashid, J. Louis, Times-series data augmentation and deep learning for construction equipment activity recognition, Adv. Eng. Inf. 42 (2019) 100944. DOI
3	K. Kamycki, T. Kapuscinski, M. Oszust, Data augmentation with suboptimal warping for time-series classification, Sensors 20 (1) (2020) 98.
4	X. Li, W. Zhang, Q. Ding, J.Q. Sun, Intelligent rotating machinery fault diagnosis based on deep learning using data augmentation, J. Intell. Manuf. 31 (2) (2020) 433-452. DOI
5	X.Y. Bi, B. Li, W.L. Lu, X.Z. Zhou, Daily runoff forecasting based on data-augmented neural network model, J. Hydroinf. 22 (4) (2020) 900-915. DOI
6	R. Zhao, D. Wang, R. Yan, K. Mao, F. Shen, J. Wang, Machine health monitoring using local feature-based gated recurrent unit networks, IEEE Trans. Ind. Electron. 65 (2) (2017) 1539-1548. DOI
7	J. Yang, J. Kim, An accident diagnosis algorithm using long short-term memory, Nuclear Engineering and Technology 50 (4) (2018) 582-588. DOI
8	Y.G. Kim, S.M. Choi, J.S. Moon, Development of Convolutional Neural Networks Diagnose Abnormal Status in Nuclear Power Plant Operation. KNS2019, Korean Nuclear Society, 2019.
9	Y. Bengio, P. Simard, P. Frasconi, Learning long-term dependencies with gradient descent is difficult, IEEE Trans. Neural Network. 5 (2) (1994) 157-166. DOI
10	J. Chung, C. Gulcehre, K. Cho, Y. Bengio, Empirical Evaluation of Gated Recurrent Neural Networks on Sequence Modeling, 2014 arXiv preprint arXiv: 1412.3555.
11	3KEYMASTER Simulator, Western Service Corporation, Frederick, MD, USA, 2013.
12	W.C. Jhee, J.K. Lee, Performance of neural networks in managerial forecasting, Intell. Syst. Account. Finance Manag. 2 (1) (1993) 55-71. DOI
13	K. Mo, S.J. Lee, P.H. Seong, A dynamic neural network aggregation model for transient diagnosis in nuclear power plants, Prog. Nucl. Energy 49 (3) (2007) 262-272. DOI
14	J.T. Kwak, S.M. Hewitt, Nuclear architecture analysis of prostate cancer via convolutional neural networks, IEEE Access 5 (2017) 18526-18533. DOI
15	A. Savitzky, M.J.E. Golay, Anal. Chem. 36 (1964) 1627-1639. DOI
16	K. Cho, B. Van Merrienboer, C. Gulcehre, D. Bahdanau, F. Bougares, H. Schwenk, Y. Bengio, Learning Phrase Representations Using RNN EncoderDecoder for Statistical Machine Translation, 2014 arXiv preprint arXiv: 1406.1078.
17	I. Jolliffe, Principal Component Analysis, second ed., Springer, 2002, pp. 1-59.
18	C.N. Babu, B.E. Reddy, A moving-average filter based hybrid ARIMA-ANN model for forecasting time series data, Appl. Soft Comput. 23 (2014) 27-38. DOI
19	S. Zheng, Y. Song, T. Leung, I. Goodfellow, Improving the robustness of deep neural networks via stability training, in: Proceedings of the Ieee Conference on Computer Vision and Pattern Recognition, 2016, pp. 4480-4488.
20	A. Gomez-Rios, S. Tabik, J. Luengo, A.S.M. Shihavuddin, B. Krawczyk, F. Herrera, Towards highly accurate coral texture images classification using deep convolutional neural networks and data augmentation, Expert Syst. Appl. 118 (2019) 315-328. DOI
21	J.M. Kim, G.M. Lee, S. Hong, S.J. Lee, Abnormal State Identifying Algorithm Using Recurrent Neural Network. KNS-2018, Korean Nuclear Society, 2018.
22	J.M. Kim, G. Lee, S. Hong, S.J. Lee, February. Input data dimensionality reduction of abnormality diagnosis model for nuclear power plants, in: International Conference on Intelligent Human Systems Integration, Springer, Cham, 2019, pp. 504-509.
23	S.G. Vinod, A.K. Babar, H.S. Kushwaha, V.V. Raj, Symptom based diagnostic system for nuclear power plant operations using artificial neural networks, Reliab. Eng. Syst. Saf. 82 (1) (2003) 33-40. DOI
24	T.V. Santosh, G. Vinod, R.K. Saraf, A.K. Ghosh, H.S. Kushwaha, Application of artificial neural networks to nuclear power plant transient diagnosis, Reliab. Eng. Syst. Saf. 92 (10) (2007) 1468-1472. DOI
25	S.J. Lee, P.H. Seong, Development of an integrated decision support system to aid cognitive activities of operators, Nuclear Engineering and Technology 39 (6) (2007) 703-716. DOI
26	S.J. Lee, P.H. Seong, Development of automated operating procedure system using fuzzy colored petri nets for nuclear power plants, Ann. Nucl. Energy 31 (8) (2004) 849-869. DOI