Abstract — We discuss a model predictive control approach to trajectory tracking problems of constrained nonlinear con-tinuous time systems, where the reference trajectory is a priori known and asymptotically constant. The proposed NMPC scheme is able to explicitly consider input and state constraints while guaranteeing recursive feasibility. To handle the time-varying nature of the tracking problem we advocate the use of time-varying level sets of Lyapunov functions as terminal regions. We prove a necessary and sufficient condition for positive invariance of these sets and show how these sets can be efficiently computed, if a quadratic Lyapunov function is available. As an example we consider a nonlinear CSTR reactor. Index Terms — nonline...
We consider the solution of nonlinear optimal control problems subject to stochastic perturbations w...
A new model predictive control (MPC) algorithm for nonlinear systems is presented. The plant under c...
Combining predictive control, LPV (Linear Parameter Varying) embedding and gain-scheduling ideas, ne...
The prototypical problem in control theory is the stabilization of a set point. When, instead of a s...
This paper presents a novel tracking predictive controller for constrained nonlinear systems capable...
This paper copes with the problem of satisfying input and/or state hard constraints in set-point tra...
This article is concerned with the tracking of nonequilibrium motions with model predictive control ...
This paper proposes a model predictive control (MPC) approach for non-linear systems where the non-l...
This paper copes with the problem of satisfying input and/or state hard constraints in set-point tra...
The model predictive control for constrained discrete time linear system under network environment i...
The terminal cost and terminal set method for guaranteeing stability of nonlinear model predictive c...
We consider the tracking of geometric paths in output spaces of nonlinear systems subject to input a...
The problem of designing feedback control systems for nonlinear systems subject to time-varying meas...
An approach to design feedback controllers for discrete-time, uncertain, linear time-varying systems...
In Model Predictive Control\ua0(MPC) formulations of trajectory tracking problems, infeasible refere...
We consider the solution of nonlinear optimal control problems subject to stochastic perturbations w...
A new model predictive control (MPC) algorithm for nonlinear systems is presented. The plant under c...
Combining predictive control, LPV (Linear Parameter Varying) embedding and gain-scheduling ideas, ne...
The prototypical problem in control theory is the stabilization of a set point. When, instead of a s...
This paper presents a novel tracking predictive controller for constrained nonlinear systems capable...
This paper copes with the problem of satisfying input and/or state hard constraints in set-point tra...
This article is concerned with the tracking of nonequilibrium motions with model predictive control ...
This paper proposes a model predictive control (MPC) approach for non-linear systems where the non-l...
This paper copes with the problem of satisfying input and/or state hard constraints in set-point tra...
The model predictive control for constrained discrete time linear system under network environment i...
The terminal cost and terminal set method for guaranteeing stability of nonlinear model predictive c...
We consider the tracking of geometric paths in output spaces of nonlinear systems subject to input a...
The problem of designing feedback control systems for nonlinear systems subject to time-varying meas...
An approach to design feedback controllers for discrete-time, uncertain, linear time-varying systems...
In Model Predictive Control\ua0(MPC) formulations of trajectory tracking problems, infeasible refere...
We consider the solution of nonlinear optimal control problems subject to stochastic perturbations w...
A new model predictive control (MPC) algorithm for nonlinear systems is presented. The plant under c...
Combining predictive control, LPV (Linear Parameter Varying) embedding and gain-scheduling ideas, ne...