Predictive controllers allow for systematic inclusion of constraints. However, the associated quadratic programming problem is computational burdensome especially when large numbers of degrees of freedom are required to ensure feasibility, that is simultaneous satisfaction of terminal conditions and system constraints. This paper develops algorithms which can utilise very few degrees of freedom and still meet constraints while also giving optimal performance when constraints are inactive
The previously developed Predictive Pole Placement (PPP) controller is modified to give enhanced num...
A key component in enabling the application of model predictive control (MPC) in fields such as auto...
For discrete-time linear time invariant systems with constraints on inputs and states, we develop an...
A predictive control algorithm is presented that uses a weighted sum of Linear quadaratic (LQ) optim...
Terminal constraints in predictive control provide a guarantee stability, but result in deadbeat pre...
summary:A single variable controller is developed in the predictive control framework based upon min...
General Predictive Control (GPC) is a modern method for process control which is appropriate for man...
Multi parametric quadratic programming solutions to predictive control can require large numbers of ...
International audienceThis article addresses the fast on-line solution of a sequence of quadratic pr...
A new fast algorithm for linear quadratic (LQ) control optimization is derived using a partial state...
We propose a method to efficiently exploit the non- standard number representation of some embedded ...
This article is concerned with the approximation of constrained continuous-time linear quadratic reg...
Terminal constraints provide for stable predicted trajectories and thus form the basis of predictive...
In this paper we review a dual fast gradient-projection approach to solving quadratic programming (Q...
Introduction The Generalized Predictive Control (GPC) is based on a quadratic cost index. If it is ...
The previously developed Predictive Pole Placement (PPP) controller is modified to give enhanced num...
A key component in enabling the application of model predictive control (MPC) in fields such as auto...
For discrete-time linear time invariant systems with constraints on inputs and states, we develop an...
A predictive control algorithm is presented that uses a weighted sum of Linear quadaratic (LQ) optim...
Terminal constraints in predictive control provide a guarantee stability, but result in deadbeat pre...
summary:A single variable controller is developed in the predictive control framework based upon min...
General Predictive Control (GPC) is a modern method for process control which is appropriate for man...
Multi parametric quadratic programming solutions to predictive control can require large numbers of ...
International audienceThis article addresses the fast on-line solution of a sequence of quadratic pr...
A new fast algorithm for linear quadratic (LQ) control optimization is derived using a partial state...
We propose a method to efficiently exploit the non- standard number representation of some embedded ...
This article is concerned with the approximation of constrained continuous-time linear quadratic reg...
Terminal constraints provide for stable predicted trajectories and thus form the basis of predictive...
In this paper we review a dual fast gradient-projection approach to solving quadratic programming (Q...
Introduction The Generalized Predictive Control (GPC) is based on a quadratic cost index. If it is ...
The previously developed Predictive Pole Placement (PPP) controller is modified to give enhanced num...
A key component in enabling the application of model predictive control (MPC) in fields such as auto...
For discrete-time linear time invariant systems with constraints on inputs and states, we develop an...