The design of a controller which will control the current in the active control coils of a tokamak fusion reactor is discussed. At this stage, the task is to stabilize and control the vertical position of the plasma. As the linearized models of the plasma dynamics are of very high order, any control system design work must be preceded by a model reduction phase. Model reduction methods based on truncated balancing are used. The control systems are designed using H∞-based methods. The initial study described indicates that the infinite element models which describe the plasma's vertical dynamics are essential low order. The Krylov subspace method of finding approximate solutions to the gramian equations worked well in this application, and t...
In this paper we propose a vertical stabilization (VS) control system for tokamak plasmas based on t...
About 85% of the primary energy is currently obtained from fossil sources. In the next future, nucle...
This thesis is concerned with the modelling and control of tokamak nuclear fusion reactors. A nonlin...
Elongated plasmas lead to improved performance in tokamaks but make the plasma prone to vertical ins...
Introduction The control of the current, position and shape of a tokamak plasma is complicated by th...
In this paper we discuss the problem of plasma vertical stabilization at the EAST tokamak. By exploi...
Plasma current, position and shape control systems and modeling approaches were reviewed. The litera...
This paper deals with the model-based approach that has been adopted to design the plasma magnetic c...
The thesis describes the design of a novel non-linear controller for the plasma vertical position in...
We present a survey of the recent literature papers dealing with the problem of designing a feedback...
The problem of confining a plasma, with sufficiently high density and temperature, is of crucial imp...
The control of the current, position and shape of an elongated cross-section tokamak plasma is compl...
Thermonuclear controlled fusion is a promising answer to the current energy and climate issues, prov...
In the Advanced Tokamak (AT) operating mode of the DIII-D tokamak, an integrated multivariable contr...
In this paper we propose a vertical stabilization (VS) control system for tokamak plasmas based on t...
About 85% of the primary energy is currently obtained from fossil sources. In the next future, nucle...
This thesis is concerned with the modelling and control of tokamak nuclear fusion reactors. A nonlin...
Elongated plasmas lead to improved performance in tokamaks but make the plasma prone to vertical ins...
Introduction The control of the current, position and shape of a tokamak plasma is complicated by th...
In this paper we discuss the problem of plasma vertical stabilization at the EAST tokamak. By exploi...
Plasma current, position and shape control systems and modeling approaches were reviewed. The litera...
This paper deals with the model-based approach that has been adopted to design the plasma magnetic c...
The thesis describes the design of a novel non-linear controller for the plasma vertical position in...
We present a survey of the recent literature papers dealing with the problem of designing a feedback...
The problem of confining a plasma, with sufficiently high density and temperature, is of crucial imp...
The control of the current, position and shape of an elongated cross-section tokamak plasma is compl...
Thermonuclear controlled fusion is a promising answer to the current energy and climate issues, prov...
In the Advanced Tokamak (AT) operating mode of the DIII-D tokamak, an integrated multivariable contr...
In this paper we propose a vertical stabilization (VS) control system for tokamak plasmas based on t...
About 85% of the primary energy is currently obtained from fossil sources. In the next future, nucle...
This thesis is concerned with the modelling and control of tokamak nuclear fusion reactors. A nonlin...