Add to ORKGThe control of present day tokamaks usually relies upon primitive modelling and TCV is used to illustrate this. A counter example is provided by the successful implementation of high order SISO controllers on COMPASS-D. Suitable models of tokamaks are required to exploit the potential of modern control techniques. A physics based MIMO model of TCV is presented and validated with experimental closed loop responses. A system identified open loop model is also presented. An enhanced controller based on these models is designed and the performance improvements discussed
Plasma stability is one of the obstacles in the path to the successful operation of fusion devices. ...
The successful performance of a model predictive profile controller is demonstrated in simulations a...
A new digital feedback control system (named the SCD "Syst??me de Contr??le Distribu??") has been de...
The control of present day tokamaks usually relies upon primitive modelling and TCV is used to illus...
In this paper a mixed PID/H∞ discrete-time controller is proposed for the control of the plasma shap...
A new approach to the modeling and control of tokamak fusion reactors is presented. A nonlinear mode...
This thesis is concerned with the modelling and control of tokamak nuclear fusion reactors. A nonlin...
This paper describes the design and the experimental validation of a multivariable digital controlle...
Elongated plasmas lead to improved performance in tokamaks but make the plasma prone to vertical ins...
A new digital feedback control system has been developed, integrated and used successfully to contro...
A high-order, multivariable, modern plasma controller has been designed using H∞ optimal control tec...
Thermonuclear controlled fusion is a promising answer to the current energy and climate issues, prov...
A key feature of the new digital plasma control system installed on the TCV (Tokamak à Configuration...
The successful performance of a model predictive profile controller is demonstrated in simulations a...
International audienceThis paper proposes a control-oriented approach to the tokamak plasma current ...
Plasma stability is one of the obstacles in the path to the successful operation of fusion devices. ...
The successful performance of a model predictive profile controller is demonstrated in simulations a...
A new digital feedback control system (named the SCD "Syst??me de Contr??le Distribu??") has been de...
The control of present day tokamaks usually relies upon primitive modelling and TCV is used to illus...
In this paper a mixed PID/H∞ discrete-time controller is proposed for the control of the plasma shap...
A new approach to the modeling and control of tokamak fusion reactors is presented. A nonlinear mode...
This thesis is concerned with the modelling and control of tokamak nuclear fusion reactors. A nonlin...
This paper describes the design and the experimental validation of a multivariable digital controlle...
Elongated plasmas lead to improved performance in tokamaks but make the plasma prone to vertical ins...
A new digital feedback control system has been developed, integrated and used successfully to contro...
A high-order, multivariable, modern plasma controller has been designed using H∞ optimal control tec...
Thermonuclear controlled fusion is a promising answer to the current energy and climate issues, prov...
A key feature of the new digital plasma control system installed on the TCV (Tokamak à Configuration...
The successful performance of a model predictive profile controller is demonstrated in simulations a...
International audienceThis paper proposes a control-oriented approach to the tokamak plasma current ...
Plasma stability is one of the obstacles in the path to the successful operation of fusion devices. ...
The successful performance of a model predictive profile controller is demonstrated in simulations a...
A new digital feedback control system (named the SCD "Syst??me de Contr??le Distribu??") has been de...