Add to ORKGInternational audienceSimple physical models are often difficult to obtain for nonhomogeneous transport phenomena that involve complex couplings between several distributed variables, such as temperature profiles in tokamak plasmas. Model-based current or combustion control approaches necessitate plasma models with real-time computation capabilities. This may prevent the use of classical knowledge-based physical models and motivates dedicated identification methods to exploit the large available experimental data. Based on distributed temperature measurements, this paper proposes a parameter-dependent identification method that first relates the normalized profiles distribution to a specific shape description thanks to a three-hidden-layers...
A technique using a single hidden layer backpropagation neural network is described to establish a n...
The VASIMR propulsion system is an ion propulsion system for spacecraft that uses magnetic fields to...
Real-time control of the plasma shape in the International Thermonuclear Experimental Reactor (ITER)...
Abstract — Simple physical models are often difficult to obtain for nonhomogeneous transport phenome...
The paper deals with the identification of plasma equilibrium reconstruction in D-shaped tokamaks on...
International audienceIn the context of present and future long pulse tokamak experiments yielding a...
\u3cp\u3eA control-oriented tokamak profile evolution model is crucial for the development and testi...
International audienceIn this paper, estimation of space and time varying thermal diffusivity and he...
International audienceA new identification technique is proposed to study the plasma phenomena takin...
The identification of plasma shape and position for control purposes in thermonuclear fusion devices...
International audienceThis paper describes an identification technique for control-oriented linear t...
International audienceIn this work, we consider the problem of particle source identification from d...
International audienceWe investigate the joint estimation of time and space distributed parameters a...
Real-time simultaneous control of several radially distributed magnetic and kinetic plasma parameter...
A technique using a single hidden layer backpropagation neural network is described to establish a n...
The VASIMR propulsion system is an ion propulsion system for spacecraft that uses magnetic fields to...
Real-time control of the plasma shape in the International Thermonuclear Experimental Reactor (ITER)...
Abstract — Simple physical models are often difficult to obtain for nonhomogeneous transport phenome...
The paper deals with the identification of plasma equilibrium reconstruction in D-shaped tokamaks on...
International audienceIn the context of present and future long pulse tokamak experiments yielding a...
\u3cp\u3eA control-oriented tokamak profile evolution model is crucial for the development and testi...
International audienceIn this paper, estimation of space and time varying thermal diffusivity and he...
International audienceA new identification technique is proposed to study the plasma phenomena takin...
The identification of plasma shape and position for control purposes in thermonuclear fusion devices...
International audienceThis paper describes an identification technique for control-oriented linear t...
International audienceIn this work, we consider the problem of particle source identification from d...
International audienceWe investigate the joint estimation of time and space distributed parameters a...
Real-time simultaneous control of several radially distributed magnetic and kinetic plasma parameter...
A technique using a single hidden layer backpropagation neural network is described to establish a n...
The VASIMR propulsion system is an ion propulsion system for spacecraft that uses magnetic fields to...
Real-time control of the plasma shape in the International Thermonuclear Experimental Reactor (ITER)...