Add to ORKGA general approximation framework is discussed for computation of optimal feedback controls in linear quadratic regular problems for nonautonomous parabolic distributed parameter systems. This is done in the context of a theoretical framework using general evolution systems in infinite dimensional Hilbert spaces. Conditions are discussed for preservation under approximation of stabilizability and detectability hypotheses on the infinite dimensional system. The special case of periodic systems is also treated
The paper concerns minimax control problems forlinear multidimensional parabolic systems with distri...
AbstractA factorization approach to the synthesis of feedback control laws for stable regulator prob...
We study the feedback stabilization around periodic solutions of parabolic control systems with unbo...
We present a variational framework based on sesquilinear forms for Galerkin approximation techniques...
An abstract approximation and convergence theory for the closed-loop solution of discrete-time linea...
© 2018 Society for Industrial and Applied Mathematics. A procedure for the numerical approximation o...
An abstract approximation framework is developed for the finite and infinite time horizon discrete-t...
Efforts on the numerical approximation and simulation of control of time periodic parabolic distribu...
In this paper, we investigate infinite horizon optimal control problems for parametrized partial dif...
International audienceIn this work we study the numerical approximation of the solutions of a class ...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/1...
Two nonclassical control techniques, vibrational control and direct model reference adaptive control...
The linear quadratic optimal control problem on infinite time interval for linear time-invariant sys...
The paper concerns minimax control problems for linear multidimensional parabolic systems with distr...
Optimal control problems for partial differential equations of evolution, mostly of parabolic type, ...
The paper concerns minimax control problems forlinear multidimensional parabolic systems with distri...
AbstractA factorization approach to the synthesis of feedback control laws for stable regulator prob...
We study the feedback stabilization around periodic solutions of parabolic control systems with unbo...
We present a variational framework based on sesquilinear forms for Galerkin approximation techniques...
An abstract approximation and convergence theory for the closed-loop solution of discrete-time linea...
© 2018 Society for Industrial and Applied Mathematics. A procedure for the numerical approximation o...
An abstract approximation framework is developed for the finite and infinite time horizon discrete-t...
Efforts on the numerical approximation and simulation of control of time periodic parabolic distribu...
In this paper, we investigate infinite horizon optimal control problems for parametrized partial dif...
International audienceIn this work we study the numerical approximation of the solutions of a class ...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/1...
Two nonclassical control techniques, vibrational control and direct model reference adaptive control...
The linear quadratic optimal control problem on infinite time interval for linear time-invariant sys...
The paper concerns minimax control problems for linear multidimensional parabolic systems with distr...
Optimal control problems for partial differential equations of evolution, mostly of parabolic type, ...
The paper concerns minimax control problems forlinear multidimensional parabolic systems with distri...
AbstractA factorization approach to the synthesis of feedback control laws for stable regulator prob...
We study the feedback stabilization around periodic solutions of parabolic control systems with unbo...