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TokamakDevice
actuatorMotorsport season
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tokamakDevice
In the Advanced Tokamak (AT) operating mode of the DIII-D tokamak, an integrated multivariable controller takes into account highly coupled influences of plasma equilibrium shape, profile, and stability control. Time-scale separation in the system allows a multi-loop design: the inner loop closed by the nominal vertical controller designed to control a linear exponentially unstable plant and the outer loop closed by the nominal shape controller designed to control a linear stabilized plant. Due to actuator constraints, the nominal vertical controller fails to stabilize the vertical position of the plasma inside the tokamak when large or fast disturbances are present or when the references coming from the shape controller change suddenly. An...
A nonlinear controller for the plasma vertical position in a Tokamak, based on a discrete-time adapt...
Historically, tokamak control design has been a combination of theory driving an initial control des...
OAK-B135 Advanced tokamaks (AT) are distinguished from conventional tokamaks by their high degree of...
In this paper we discuss the problem of plasma vertical stabilization at the EAST tokamak. By exploi...
In this paper, the authors describe recent work on plasma shape and position control at DIII-D. This...
The thesis describes the design of a novel non-linear controller for the plasma vertical position in...
OAK A271 NEXT-GENERATION PLASMA CONTROL IN THE DIII-D TOKAMAK. The advanced tokamak (AT) operating m...
The design of a controller which will control the current in the active control coils of a tokamak f...
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...
Abstract—This paper describes new controller synthesis approach based on DK-iterations procedure. Th...
Introduction The control of the current, position and shape of a tokamak plasma is complicated by th...
A ITER-like vertical stabilization (VS) algorithm has been successfully deployed and commissioned at...
Tokamak control systems have to deal with different kinds of instabilities related to the presence o...
A method to calculate the stability region of scalar systems with one unstable pole subject to contr...
A nonlinear controller for the plasma vertical position in a Tokamak, based on a discrete-time adapt...
Historically, tokamak control design has been a combination of theory driving an initial control des...
OAK-B135 Advanced tokamaks (AT) are distinguished from conventional tokamaks by their high degree of...
In this paper we discuss the problem of plasma vertical stabilization at the EAST tokamak. By exploi...
In this paper, the authors describe recent work on plasma shape and position control at DIII-D. This...
The thesis describes the design of a novel non-linear controller for the plasma vertical position in...
OAK A271 NEXT-GENERATION PLASMA CONTROL IN THE DIII-D TOKAMAK. The advanced tokamak (AT) operating m...
The design of a controller which will control the current in the active control coils of a tokamak f...
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...
Abstract—This paper describes new controller synthesis approach based on DK-iterations procedure. Th...
Introduction The control of the current, position and shape of a tokamak plasma is complicated by th...
A ITER-like vertical stabilization (VS) algorithm has been successfully deployed and commissioned at...
Tokamak control systems have to deal with different kinds of instabilities related to the presence o...
A method to calculate the stability region of scalar systems with one unstable pole subject to contr...
A nonlinear controller for the plasma vertical position in a Tokamak, based on a discrete-time adapt...
Historically, tokamak control design has been a combination of theory driving an initial control des...
OAK-B135 Advanced tokamaks (AT) are distinguished from conventional tokamaks by their high degree of...
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