Nuclear Fusion (Jan 2023)

Adaptive Tikhonov regularization and dynamic control points for accurate shape parameter control of plasmas

  • S. Inoue,
  • S. Kojima,
  • Y. Miyata,
  • H. Urano,
  • T. Suzuki

DOI
https://doi.org/10.1088/1741-4326/ad0904
Journal volume & issue
Vol. 64, no. 1
p. 016014

Abstract

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Precise control of plasma shape parameters, such as elongation and triangularity is duly needed to achieve high-performance tokamak plasmas, for which we propose adaptive search schemes of (1) optimum regularization parameter for the Tikhonov regularization, and (2) control points to specify the key shape parameters such as elongation and triangularity. Many control points that exceed the number of actuator coils become an ill-conditioned problem, which is successfully resolved by Tikhonov regularization with adaptively optimized free parameters. Furthermore, we develop dynamically changed control points by using the Cauchy Condition Surface scheme, where elongation and triangularity become direct control values. By virtue of both the adaptive Tikhonov regularization scheme and the dynamic control point, we achieved accurate shape control with elongation up to 1.93 and triangularity up to 0.65 in JT-60SA, where the allowable speed for the change of the elongation is 0.1 s ^−1 . We also verified the resilience of our developed our logics to the noises. The sequence of the result will contribute to enhance equilibrium controllability in upcoming JT-60SA experiments and provide the robust shape parameter control scheme for ITER and DEMO.

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