This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with a nonholonomic constraint whose turning radius is lower-bounded). We present a fast and exact planner for our mobile robot model, based upon recursive subdivision of a collision-free path generated by a lower-level geometric planner that ignores the motion constraints. The resultant trajectory is optimized to give a path that is of near-minimal length in its homotopy class. Our claims of high speed are supported by experimental results for implementations that assume a robot moving amid polygonal obstacles. The completeness and the complexity of the algorithm are proven using an appropriate metric in the configuration space R^2 x S^1 of the r...
Robots in applications may be subject to holonomic or nonholonomic constraints. Examples of holonomi...
This paper deals with the problem of planning a path for a robot vehicle amidst obstacles. The kinem...
This paper presents a novel simple, but efficient robot path planning algorithm, which plans the obs...
This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with ...
: Several schemes have been proposed in the path planning-literature to plan collision-free and feas...
A new approach of nonholonomic path planning for car-like robots is presented. The main idea is simi...
This paper describes a practical path planner for nonholonomic robots in environments with obstacles...
Trajectory planning is one of the fundamental problems in mobile robotics. A wide variety of approac...
This paper describes a technique for path planning in environments cluttered with obstacles for mobi...
(Working paper) A multibody car system is a non-nilpotent, non-regular, triangularizable and well-co...
Abstract The problem of planning a path for a robot vehicle amidst obstacles is considered. The kine...
The field of robotics has developed at a promising speed these years, and its potential usage is t...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
ftp://ftp.inrialpes.fr/pub/sharp/publications/scheuer:xie:iros:99.pdf.gz (not accepted here, non vet...
Robots in applications may be subject to holonomic or nonholonomic constraints. Examples of holonomi...
This paper deals with the problem of planning a path for a robot vehicle amidst obstacles. The kinem...
This paper presents a novel simple, but efficient robot path planning algorithm, which plans the obs...
This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with ...
: Several schemes have been proposed in the path planning-literature to plan collision-free and feas...
A new approach of nonholonomic path planning for car-like robots is presented. The main idea is simi...
This paper describes a practical path planner for nonholonomic robots in environments with obstacles...
Trajectory planning is one of the fundamental problems in mobile robotics. A wide variety of approac...
This paper describes a technique for path planning in environments cluttered with obstacles for mobi...
(Working paper) A multibody car system is a non-nilpotent, non-regular, triangularizable and well-co...
Abstract The problem of planning a path for a robot vehicle amidst obstacles is considered. The kine...
The field of robotics has developed at a promising speed these years, and its potential usage is t...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
ftp://ftp.inrialpes.fr/pub/sharp/publications/scheuer:xie:iros:99.pdf.gz (not accepted here, non vet...
Robots in applications may be subject to holonomic or nonholonomic constraints. Examples of holonomi...
This paper deals with the problem of planning a path for a robot vehicle amidst obstacles. The kinem...
This paper presents a novel simple, but efficient robot path planning algorithm, which plans the obs...