First application of data assimilation-based control to fusion plasma

Yuya Morishita; Sadayoshi Murakami; Naoki Kenmochi; Hisamichi Funaba; Ichihiro Yamada; Yoshinori Mizuno; Kazuki Nagahara; Hideo Nuga; Ryosuke Seki; Masayuki Yokoyama; Genta Ueno; Masaki Osakabe

doi:10.1038/s41598-023-49432-3

Scientific Reports (Jan 2024)

First application of data assimilation-based control to fusion plasma

Yuya Morishita,
Sadayoshi Murakami,
Naoki Kenmochi,
Hisamichi Funaba,
Ichihiro Yamada,
Yoshinori Mizuno,
Kazuki Nagahara,
Hideo Nuga,
Ryosuke Seki,
Masayuki Yokoyama,
Genta Ueno,
Masaki Osakabe

Affiliations

Yuya Morishita: Department of Nuclear Engineering, Kyoto University
Sadayoshi Murakami: Department of Nuclear Engineering, Kyoto University
Naoki Kenmochi: National Institute for Fusion Science, National Institutes of Natural Sciences
Hisamichi Funaba: National Institute for Fusion Science, National Institutes of Natural Sciences
Ichihiro Yamada: National Institute for Fusion Science, National Institutes of Natural Sciences
Yoshinori Mizuno: National Institute for Fusion Science, National Institutes of Natural Sciences
Kazuki Nagahara: National Institute for Fusion Science, National Institutes of Natural Sciences
Hideo Nuga: National Institute for Fusion Science, National Institutes of Natural Sciences
Ryosuke Seki: National Institute for Fusion Science, National Institutes of Natural Sciences
Masayuki Yokoyama: National Institute for Fusion Science, National Institutes of Natural Sciences
Genta Ueno: The Institute of Statistical Mathematics, Research Organization of Information and Systems
Masaki Osakabe: National Institute for Fusion Science, National Institutes of Natural Sciences

DOI: https://doi.org/10.1038/s41598-023-49432-3
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract Magnetic fusion plasmas, which are complex systems comprising numerous interacting elements, have large uncertainties. Therefore, future fusion reactors require prediction-based advanced control systems with an adaptive system model and control estimation robust to uncertainties in the model and observations. To address this challenge, we introduced a control approach based on data assimilation (DA), which describes the system model adaptation and control estimation based on the state probability distribution. The first implementation of a DA-based control system was achieved at the Large Helical Device to control the high temperature plasma. The experimental results indicate that the control system enhanced the predictive capability using real-time observations and adjusted the electron cyclotron heating power for a target temperature. The DA-based control system provides a flexible platform for advanced control in future fusion reactors.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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