An interpretable disruption predictor on EAST using improved XGBoost and SHAP

An interpretable disruption predictor on EAST using improved XGBoost and SHAP

The development of a disruption predictor using a data-driven solution is an effective way to avoid or mitigate tokamak device disruptions. The black-box nature of the model itself determines the agnostic nature of its decision base and becomes a key factor limiting the further development of disrup...

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Bibliographic Details
Main Authors: D.M. Liu, X.L. Zhu, Y.S. Jiang, S. Wang, S.B. Shu, B. Shen, B.H. Guo, L.C. Liu
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:Nuclear Fusion
Subjects:
disruption prediction
EAST
XGBoost
SHAP
Online Access:https://doi.org/10.1088/1741-4326/adeea8
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Summary:The development of a disruption predictor using a data-driven solution is an effective way to avoid or mitigate tokamak device disruptions. The black-box nature of the model itself determines the agnostic nature of its decision base and becomes a key factor limiting the further development of disruption predictors. To identify the factors affecting the model performance and achieve better understanding of its predictions, this study proposes an interpretable method for disruption prediction. Based on the physical characteristics of the disruption, 2094 disruption shots and 4858 non-disruption shots from 2022 to 2024 were screened as training shots, and then the disruption prediction model was trained using the eXtreme Gradient Boosting (XGBoost) algorithm from training samples consisting of 16 diagnostic signals, such as plasma current, density, and radiation. The experimental results show that the XGBoost can accurately predict the disruption shot 30 ms before the disruption (96.7% true positive rate), whereas the false positive rate of the non-disruption shot is 6.58%. Through the analyses of Shapley Additive exPlanations interpretability, the degree of relative importance of each signal was determined while the shot disruption type was based on the signals close to the disruption. The results demonstrate the feasibility of EAST plasma disruption prediction using the method proposed in this study, which holds referential significance for the disruption prediction for future fusion devices.
ISSN:0029-5515

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