DocumentCode
1051582
Title
Reactive Path Planning in a Dynamic Environment
Author
Belkhouche, Fethi
Author_Institution
Syst. Eng. Program, Texas A&M Int. Univ., Laredo, TX, USA
Volume
25
Issue
4
fYear
2009
Firstpage
902
Lastpage
911
Abstract
This paper deals with the problem of path planning in a dynamic environment, where the workspace is cluttered with unpredictably moving objects. The concept of the virtual plane is introduced and used to create reactive kinematic-based navigation laws. A virtual plane is an invertible transformation equivalent to the workspace, which is constructed by using a local observer. This results in important simplifications of the collision detection process. Based on the virtual plane, it is possible to determine the intervals of the linear velocity and the paths that lead to collisions with moving obstacles and then derive a dynamic window for the velocity and the orientation to navigate the robot safely. The speed of the robot and the orientation angle are controlled independently using simple collision cones and collision windows constructed from the virtual plane. The robot´s path is controlled using kinematic-based navigation laws that depend on navigation parameters. These parameters are tuned in real time to adjust the path of the robot. Simulation is used to illustrate collision detection and path planning.
Keywords
mobile robots; observers; path planning; robot dynamics; robot kinematics; collision cones; collision detection process; collision windows; dynamic environment; dynamic window; linear velocity; local observer; reactive kinematic-based navigation laws; reactive path planning; unpredictably moving objects; virtual plane; wheeled mobile robots; Autonomous agents; motion control; path planning for multiple mobile robot systems;
fLanguage
English
Journal_Title
Robotics, IEEE Transactions on
Publisher
ieee
ISSN
1552-3098
Type
jour
DOI
10.1109/TRO.2009.2022441
Filename
5061615
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