In several applications, a performance criterion that is quartic in the state can be a desired alternative to the classic quadratic control. This letter proposes a receding horizon controller for linear time-invariant systems subject to linear state and input constraints, which makes use of a running cost that is quadratic in the input and quartic in the state. Stability and recursive feasibility of the proposed receding horizon scheme are proven. Numerical simulations are presented, considering the problem of controlling a single-link inverted pendulum on a cart.SCOPUS: ar.jinfo:eu-repo/semantics/publishe
Abstract This paper is concerned with the stability of a class of receding horizon control laws for ...
Receding horizon control has recently been used for regulating discrete-time Piecewise Affine (PWA) ...
This paper addresses the design of a dynamic, nonlinear, time-invariant, state feedback controller t...
This paper characterises the geometric structure of receding horizon control (RHC) of linear, discre...
For discrete-time linear time invariant systems with constraints on inputs and states, we develop an...
By exploring the geometry of the underlying constrained optimization, a finitely parameterized solut...
summary:The paper addresses receding-horizon (predictive) control for polytopic discrete-time system...
Abstract. Receding horizon control has been a widespread method in industrial control engi-<br>neeri...
This contribution addresses the problem of discrete time receding horizon quadratic control for plan...
The design of a dynamic state feedback receding horizon controller is addressed, which guarantees ro...
summary:This paper deals with a multiobjective control problem for nonlinear discrete time systems. ...
This paper considers receding horizon control strategies for constrained linear systems. Continuous-...
Abstract: Recent results on receding horizon control of linear systems with state and input constrai...
International audienceThis paper proposes a novel receding horizon based controller for LPV discrete...
This paper addresses the design of a dynamic state feedback receding horizon controller, which guara...
Abstract This paper is concerned with the stability of a class of receding horizon control laws for ...
Receding horizon control has recently been used for regulating discrete-time Piecewise Affine (PWA) ...
This paper addresses the design of a dynamic, nonlinear, time-invariant, state feedback controller t...
This paper characterises the geometric structure of receding horizon control (RHC) of linear, discre...
For discrete-time linear time invariant systems with constraints on inputs and states, we develop an...
By exploring the geometry of the underlying constrained optimization, a finitely parameterized solut...
summary:The paper addresses receding-horizon (predictive) control for polytopic discrete-time system...
Abstract. Receding horizon control has been a widespread method in industrial control engi-<br>neeri...
This contribution addresses the problem of discrete time receding horizon quadratic control for plan...
The design of a dynamic state feedback receding horizon controller is addressed, which guarantees ro...
summary:This paper deals with a multiobjective control problem for nonlinear discrete time systems. ...
This paper considers receding horizon control strategies for constrained linear systems. Continuous-...
Abstract: Recent results on receding horizon control of linear systems with state and input constrai...
International audienceThis paper proposes a novel receding horizon based controller for LPV discrete...
This paper addresses the design of a dynamic state feedback receding horizon controller, which guara...
Abstract This paper is concerned with the stability of a class of receding horizon control laws for ...
Receding horizon control has recently been used for regulating discrete-time Piecewise Affine (PWA) ...
This paper addresses the design of a dynamic, nonlinear, time-invariant, state feedback controller t...