summary:By the use of flatness the problem of pole placement, which consists in imposing closed loop system dynamics can be related to tracking. Polynomial controllers for finite-dimensional linear systems can then be designed with very natural choices for high level parameters design. This design leads to a Bezout equation which is independent of the closed loop dynamics but depends only on the system model
We study the control of vibratory systems by means of the flatness approach. For flat control system...
The problem of computing controllers to enlarge the domain of attraction (DA) of equilibrium points ...
The polynomial approach to controller design has been applied to systems with double-integrator plan...
By the use of flatness the problem of pole placement, which consists in imposing closed loop system ...
This paper presents a solution to the control to facet problem for arbitrary polynomial vector field...
International audienceThis paper presents results for the design of polynomial control laws for poly...
In the control theory one attempts to find a controller that provides the best possible performance ...
the relations between different flatness based design methods for tracking controller
Abstract: In this paper, a comparison between conventional RST polynomial control by poles placement...
summary:In this paper, tracking control design for a class of nonlinear polynomial systems is invest...
The classical polynomial approach to pole placement involves the computation of a particular solutio...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.Th...
This article presents proposals for the design of reduced-order controllers for high-dimensional dyn...
We study the control of vibratory systems by means of the flatness approach. For flat control system...
The problem of computing controllers to enlarge the domain of attraction (DA) of equilibrium points ...
The polynomial approach to controller design has been applied to systems with double-integrator plan...
By the use of flatness the problem of pole placement, which consists in imposing closed loop system ...
This paper presents a solution to the control to facet problem for arbitrary polynomial vector field...
International audienceThis paper presents results for the design of polynomial control laws for poly...
In the control theory one attempts to find a controller that provides the best possible performance ...
the relations between different flatness based design methods for tracking controller
Abstract: In this paper, a comparison between conventional RST polynomial control by poles placement...
summary:In this paper, tracking control design for a class of nonlinear polynomial systems is invest...
The classical polynomial approach to pole placement involves the computation of a particular solutio...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.Th...
This article presents proposals for the design of reduced-order controllers for high-dimensional dyn...
We study the control of vibratory systems by means of the flatness approach. For flat control system...
The problem of computing controllers to enlarge the domain of attraction (DA) of equilibrium points ...
The polynomial approach to controller design has been applied to systems with double-integrator plan...