Add to ORKG(Working paper) A multibody car system is a non-nilpotent, non-regular, triangularizable and well-controllable system. One goal of the current paper is to prove this obscure assertion. But its main goal is to explain and enlighten what it means. Motion planning is an already old and classical problem in Robotics. A few years ago a new instance of this problem has appeared in the literature: motion planning for nonholonomic systems. While useful tools in motion planning come from Computer Science and Mathematics (Computational Geometry, Real Algebraic Geometry), nonholonomic motion planning needs some Control Theory and more Mathematics (Differential Geometry). First of all, this paper tries to give a computational reading of the tools from ...
In this dissertation we examine a class of systems where nonholonomic kinematic constraints are comb...
The path planning problem for arbitrary devices is first and foremost a geometrical problem. For the...
International audienceThe authors address the motion planning problem for a robot and a movable obje...
AbstractThis paper presents a survey of recent combinatorial results arising in the study of nonholo...
Nonholonomic systems are control systems which depend linearly on the control. Their underlying geom...
Nonholonomic systems are control systems which depend linearly on the control. Their underlying geom...
This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with ...
This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with ...
AbstractThis paper presents a survey of recent combinatorial results arising in the study of nonholo...
Abstract—In this paper, we present a general theory of motion planning for kinematic systems. In par...
This paper addresses the motion planning problem in non-holonomic robotic systems. The system's kine...
This paper studies local configuration controllability of multibody systems with nonholonomic constr...
This paper studies local configuration controllability of multibody systems with nonholonomic constr...
We consider the problem of planning point-to-point motion for general robotic systems subject to non...
We deal with motion planning problems for nonholonomic systems. Our approach is based on optimal con...
In this dissertation we examine a class of systems where nonholonomic kinematic constraints are comb...
The path planning problem for arbitrary devices is first and foremost a geometrical problem. For the...
International audienceThe authors address the motion planning problem for a robot and a movable obje...
AbstractThis paper presents a survey of recent combinatorial results arising in the study of nonholo...
Nonholonomic systems are control systems which depend linearly on the control. Their underlying geom...
Nonholonomic systems are control systems which depend linearly on the control. Their underlying geom...
This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with ...
This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with ...
AbstractThis paper presents a survey of recent combinatorial results arising in the study of nonholo...
Abstract—In this paper, we present a general theory of motion planning for kinematic systems. In par...
This paper addresses the motion planning problem in non-holonomic robotic systems. The system's kine...
This paper studies local configuration controllability of multibody systems with nonholonomic constr...
This paper studies local configuration controllability of multibody systems with nonholonomic constr...
We consider the problem of planning point-to-point motion for general robotic systems subject to non...
We deal with motion planning problems for nonholonomic systems. Our approach is based on optimal con...
In this dissertation we examine a class of systems where nonholonomic kinematic constraints are comb...
The path planning problem for arbitrary devices is first and foremost a geometrical problem. For the...
International audienceThe authors address the motion planning problem for a robot and a movable obje...