Local incremental planning for nonholonomic mobile robots

Author

De Luca, Alessandro ; Oriolo, Giuseppe

Author_Institution

Dipartimento di Sci. dell´´Inf., Milan Univ., Italy

fYear

1994

fDate

8-13 May 1994

Firstpage

104

Abstract

We present a simple approach for planning the motion of nonholonomic robots among obstacles. Existing methods lead to open-loop solutions which are either obtained in two stages, approximating a previously built holonomic path, or computationally intensive, being based on configuration space discretization. Our nonholonomic planner employs a direct projection strategy to modify online the output of a holonomic incremental planner, and generates velocity control inputs that realize the desired motion in a least-squares sense. As a result, a feedback scheme is obtained which can use only local sensor information. The proposed approach is applied to unicycle kinematics, with artificial potential fields or vortex fields as local holonomic planners

Keywords

feedback; mobile robots; path planning; robot kinematics; velocity control; configuration space discretization; feedback; focal incremental planning; holonomic path; least-squares; nonholonomic mobile robots; obstacle avoidance; potential fields; unicycle kinematics; velocity control; vortex fields; Feedback control; Geometry; Mobile robots; Motion planning; Open loop systems; Orbital robotics; Robot sensing systems; Robustness; Shape; Velocity control;

fLanguage

English

Publisher

ieee

Conference_Titel

Robotics and Automation, 1994. Proceedings., 1994 IEEE International Conference on

Conference_Location

San Diego, CA

Print_ISBN

0-8186-5330-2

Type

conf

DOI

10.1109/ROBOT.1994.351003

Filename

351003