Add to ORKGIt is well known that exponentially unstable linear systems can not be globally stabilized in the presence of input constraints. In the case where the linear system is neutrally stable, one can achieve global asymptotic stability using a particular control Lyapunov function (CLF)-based controller. Using this particular CLF as terminal cost in a receding horizon scheme, we obtain a receding horizon controller which globally stabilizes such systems. Contrary to previous results, the horizon length is fixed, and can be chosen arbitrarily. The resulting controller also outperforms the CLF controller, since it provides a lower cost as measured by a quadratic performance index
Control Lyapunov functions (CLFs) are used in conjunction with receding horizon control to develop a...
Receding horizon control has recently been used for regulating discrete-time Piecewise Affine (PWA) ...
Feedback stabilization of systems subject to constraints has been a long-standing problem in control...
It is well known that exponentially unstable linear systems can not be globally stabilized in the pr...
This paper deals with unconstrained receding horizon control of nonlinear systems with a general, no...
It is well known that unconstrained infinite-horizon optimal control may be used to construct a stab...
It is well known that unconstrained infinite-horizon optimal control may be used to construct a stab...
This paper focus on the stability of receding horizon control of general nonlinear systems. We emplo...
This paper addresses the issue of region of attraction of stabilizing receding horizon control stra...
This paper focus on the stabilizing properties of stationary feedback controls for general nonlinear...
MPC(Model Predictive Control) is representative of control methods which are able to handle physical...
Abstract: Recent results on receding horizon control of linear systems with state and input constrai...
With the advent of faster and cheaper computers, optimization based control methodologies have becom...
In this paper, we propose a generalized stabilizing receding horizon control (RHC) scheme for input/...
Almost all proposed approaches to nonlinear receding horizon control with guaranteed stability are b...
Control Lyapunov functions (CLFs) are used in conjunction with receding horizon control to develop a...
Receding horizon control has recently been used for regulating discrete-time Piecewise Affine (PWA) ...
Feedback stabilization of systems subject to constraints has been a long-standing problem in control...
It is well known that exponentially unstable linear systems can not be globally stabilized in the pr...
This paper deals with unconstrained receding horizon control of nonlinear systems with a general, no...
It is well known that unconstrained infinite-horizon optimal control may be used to construct a stab...
It is well known that unconstrained infinite-horizon optimal control may be used to construct a stab...
This paper focus on the stability of receding horizon control of general nonlinear systems. We emplo...
This paper addresses the issue of region of attraction of stabilizing receding horizon control stra...
This paper focus on the stabilizing properties of stationary feedback controls for general nonlinear...
MPC(Model Predictive Control) is representative of control methods which are able to handle physical...
Abstract: Recent results on receding horizon control of linear systems with state and input constrai...
With the advent of faster and cheaper computers, optimization based control methodologies have becom...
In this paper, we propose a generalized stabilizing receding horizon control (RHC) scheme for input/...
Almost all proposed approaches to nonlinear receding horizon control with guaranteed stability are b...
Control Lyapunov functions (CLFs) are used in conjunction with receding horizon control to develop a...
Receding horizon control has recently been used for regulating discrete-time Piecewise Affine (PWA) ...
Feedback stabilization of systems subject to constraints has been a long-standing problem in control...