Machine Learning: Science and Technology (Jan 2024)

Coincidence anomaly detection for unsupervised locating of edge localized modes in the DIII-D tokamak dataset

  • Finn H O’Shea,
  • Semin Joung,
  • David R Smith,
  • Daniel Ratner,
  • Ryan Coffee

DOI
https://doi.org/10.1088/2632-2153/ad6be7
Journal volume & issue
Vol. 5, no. 3
p. 035050

Abstract

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Using supervised learning to train a machine learning model to predict an on-coming edge localized mode (ELM) requires a large number of labeled samples. Creating an appropriate data set from the very large database of discharges at a long-running tokamak, such as DIII-D, would be a very time-consuming process for a human. Considering this need and difficulty, we use coincidence anomaly detection, an unsupervised learning technique, to train an ELM-identifier to identify and label ELMs in the DIII-D discharge database. This ELM-identifier shows, simultaneously, a precision of 0.68 and a recall of 0.63 (AUC is 0.73) on identifying ELMs in example time series pulled from thousands of discharges spanning five years. In a test set of 50 discharges, the algorithm finds over 26 thousand ELM candidates, more than 5 times the existing catalog of ELMs labeled by humans.

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