The authors introduce a nilpotent form, called a chained form, for nonholonomic control systems. For the case of a nonholonomic system with two inputs, they give constructive conditions for the existence of a feedback transformation which puts the system into chained form, and show how to steer the system between arbitrary states. Examples are presented for steering a car and a car with a trailer attached: other examples can be found in the areas of space robotics and multifingered robot hands. The present results also have applications in the area of nilpotentization of distributions of vector fields on R^n
In this paper we employ two adaptive strategies for motion control of uncertain nonholonomic mechani...
A lot of research is done concerning motion planning and tracking control for me-chanical systems li...
In this paper we address the tracking problem for a class of non-holonomic chained-form control syst...
The authors introduce a nilpotent form, called a chained form, for nonholonomic control systems. For...
Methods for steering systems with nonholonomic constraints between arbitrary configurations are inve...
This paper develops a constructive method for finding a nilpotent basis for a special class of smoot...
Develops the machinery of exterior differential forms, more particularly the Goursat normal form for...
summary:In this article, a new solution to the steering control problem of nonholonomic systems, whi...
Many real-world electrical and mechanical systems have velocity-dependent constraints in their dynam...
Methods for steering systems with nonholonomic constraints between arbitrary configurations are inve...
International audienceThis paper deals with state feedback control of chained systems based on a Non...
Abstract A summary of recent developments concerning robust stabilization problems for the nonholono...
The authors present a control law for globally asymptotically stabilizing a class of controllable no...
AbstractThis paper presents a survey of recent combinatorial results arising in the study of nonholo...
In this paper we derive control algorithms for a class of dynamic nonholonomic steering problems, ch...
In this paper we employ two adaptive strategies for motion control of uncertain nonholonomic mechani...
A lot of research is done concerning motion planning and tracking control for me-chanical systems li...
In this paper we address the tracking problem for a class of non-holonomic chained-form control syst...
The authors introduce a nilpotent form, called a chained form, for nonholonomic control systems. For...
Methods for steering systems with nonholonomic constraints between arbitrary configurations are inve...
This paper develops a constructive method for finding a nilpotent basis for a special class of smoot...
Develops the machinery of exterior differential forms, more particularly the Goursat normal form for...
summary:In this article, a new solution to the steering control problem of nonholonomic systems, whi...
Many real-world electrical and mechanical systems have velocity-dependent constraints in their dynam...
Methods for steering systems with nonholonomic constraints between arbitrary configurations are inve...
International audienceThis paper deals with state feedback control of chained systems based on a Non...
Abstract A summary of recent developments concerning robust stabilization problems for the nonholono...
The authors present a control law for globally asymptotically stabilizing a class of controllable no...
AbstractThis paper presents a survey of recent combinatorial results arising in the study of nonholo...
In this paper we derive control algorithms for a class of dynamic nonholonomic steering problems, ch...
In this paper we employ two adaptive strategies for motion control of uncertain nonholonomic mechani...
A lot of research is done concerning motion planning and tracking control for me-chanical systems li...
In this paper we address the tracking problem for a class of non-holonomic chained-form control syst...