In this paper we give a formulation of differential flatness-a concept originally introduced by Fliess, Levine, Martin, and Rouchon (1992)-in terms of absolute equivalence between exterior differential systems. Systems which are differentially flat have several useful properties which can be exploited to generate effective control strategies for nonlinear systems. The original definition of flatness was given in the context of differential algebra, and required that all mappings be meromorphic functions. Our formulation of flatness does not require any algebraic structure and allows one to use tools from exterior differential systems to help characterize differentially flat systems. In particular, we show that in the case of single input co...
Let's consider a control system described by the implicit equation F (x, ˙ x) = 0. If this system is...
Despite its significance in nonlinear controller design, the verification of the property of differe...
International audienceThis paper gives a description of a class of $0$-flat dynamical systems. This ...
In this paper we give a formulation of differential flatness---a concept originally introduced by Fl...
This paper presents a formulation of differential flatness---a concept originally introduced by Flie...
Differentially flat systems are underdetermined systems of (nonlinear) ordinary differential equatio...
Flat systems, an important subclass of nonlinear control systems introduced via differential-algebr...
For nonlinear control systems (p inputs), we present a test for flatness. The method consists of mak...
We introduce a concept of differential flatness for systems described by nonlinear partial different...
In this paper, static state and dynamic state feedback linearisation are considered in the framework...
The paper addresses the exact linearization of flat nonlinear discrete-time systems by generalized s...
This thesis explores the paradigm of two degree of freedom design for nonlinear control systems. In ...
This thesis introduces the new concept of flatness. A system is differentially flat (or simply flat)...
Lagrangian control systems that are differentially flat with flat outputs that only depend on config...
In general, flat outputs of a nonlinear system may depend on the system's state and input as well as...
Let's consider a control system described by the implicit equation F (x, ˙ x) = 0. If this system is...
Despite its significance in nonlinear controller design, the verification of the property of differe...
International audienceThis paper gives a description of a class of $0$-flat dynamical systems. This ...
In this paper we give a formulation of differential flatness---a concept originally introduced by Fl...
This paper presents a formulation of differential flatness---a concept originally introduced by Flie...
Differentially flat systems are underdetermined systems of (nonlinear) ordinary differential equatio...
Flat systems, an important subclass of nonlinear control systems introduced via differential-algebr...
For nonlinear control systems (p inputs), we present a test for flatness. The method consists of mak...
We introduce a concept of differential flatness for systems described by nonlinear partial different...
In this paper, static state and dynamic state feedback linearisation are considered in the framework...
The paper addresses the exact linearization of flat nonlinear discrete-time systems by generalized s...
This thesis explores the paradigm of two degree of freedom design for nonlinear control systems. In ...
This thesis introduces the new concept of flatness. A system is differentially flat (or simply flat)...
Lagrangian control systems that are differentially flat with flat outputs that only depend on config...
In general, flat outputs of a nonlinear system may depend on the system's state and input as well as...
Let's consider a control system described by the implicit equation F (x, ˙ x) = 0. If this system is...
Despite its significance in nonlinear controller design, the verification of the property of differe...
International audienceThis paper gives a description of a class of $0$-flat dynamical systems. This ...