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Robust stabilization of the current profile in tokamak plasmas using sliding mode approach in infinite dimension |
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| Authors: | O. Gaye E. Moulay S. Brémond L. Autrique R. Nouailletas J.F. Artaud Y. Orlov |
| Affiliation: | 1. LISA (EA 4094), Université d''Angers, 62 avenue Notre Dame du Lac, 49000 Angers, France;2. Xlim-SIC (UMR CNRS 7252), Université de Poitiers, Bât. SP2MI, Bvd Marie et Pierre Curie, BP 30179, 86962 Futuroscope Chasseneuil Cedex, France;3. CEA/DSM/IRFM CEA-Cadarache, 13108 Saint Paul Lez Durance, France;4. CICESE Research Center, Km 107. Carretera Tijuana-Ensenada, Ensenada, B.C. 22860, Mexico |
| Abstract: | This paper deals with the robust stabilization of the spatial distribution of tokamak plasmas current profile using a sliding mode feedback control approach. The control design is based on the 1D resistive diffusion equation of the magnetic flux that governs the plasma current profile evolution. The feedback control law is derived in the infinite dimensional setting without spatial discretization. Numerical simulations are provided and the tuning of the controller parameters that would reject uncertain perturbations is discussed. Closed loop simulations performed on realistic test cases using a physics based tokamak integrated simulator confirm the relevance of the proposed control algorithm in view of practical implementation. |
| Keywords: | Tokamak plasmas control Parabolic partial differential equations Lyapunov stabilization Sliding mode control Robust control |
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