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Disruption predictor based on neural network and anomaly detection on J-TEXT

Wei Zheng, Qian Wu, Ming Zhang, Zhongyong Chen, Yongle Shang, Jiahe Fan, Yuan Pan, J-TEXT Team

2020Plasma Physics and Controlled Fusion36 citationsDOI

Abstract

Abstract Disruption prediction is essential for the safe operation of a large scale tokamak. Existing disruption predictors based on machine learning techniques have good prediction performance, but all these methods need large training datasets including many disruptions to develop their successful prediction capability. Future machines are unlikely to provide enough disruption samples since these cause excessive machine damage and the prediction models used are difficult to extrapolate to a machines that the predictor was not trained on. In this paper, a disruption predictor based on a deep learning and anomaly detection technique has been developed. It regards the disruption as an anomaly, and can learn on non-disruptive shots only. The model is trained to extract the hidden features of various non-disruptive shots with a convolutional neural network and a long-shot term memory (LSTM) recurrent neural network. It will predict the future trend of selected diagnostics, then using the predicted future trend and the measured signal to calculate an outlier factor to determine if a disruption is coming. It was tested with J-TEXT discharges in flat top phase and can demonstrate comparable performance to current machine learning disruption prediction techniques, without requiring a disruption data set. This could be applied to future tokamaks and reduce the dependency on disruptive experiments.

Topics & Concepts

Computer scienceArtificial intelligenceMachine learningAnomaly detectionConvolutional neural networkArtificial neural networkOutlierAnomaly (physics)TokamakSet (abstract data type)Dependency (UML)Pattern recognition (psychology)PhysicsQuantum mechanicsProgramming languageCondensed matter physicsPlasmaMagnetic confinement fusion researchAnomaly Detection Techniques and ApplicationsNuclear Engineering Thermal-Hydraulics
Disruption predictor based on neural network and anomaly detection on J-TEXT | Litcius