Title :
3D path planning based on nonlinear geodesic equation
Author :
Kun-Lin Wu ; Chi-Wen Lo ; Yueh-chen Lin ; Jing-Sin Liu
Author_Institution :
Inst. of Inf. Sci., Taipei, Taiwan
Abstract :
A lot of methods have been proposed for 2D path planning of mobile robot, which could be a mobile platform or a wheelchair, in planar maps. This paper addresses a concept of the shortest path planning for a mobile robot to traverse a 3D surface, which is a parametrized regular surface that models the non-flat terrain on which the mobile robot traverses. Geodesic curve linking a given start to a given target that is locally shortest on non-flat terrain is used as path. Nonlinear geodesic equations are computed by a gradient descent method with energy function of geodesic, which is shown to converge to the geodesic path in a neighborhood of target position in which a certain Lipschitz condition holds.We present numerical simulations to illustrate the geodesic path planning on non-flat terrains.
Keywords :
mobile robots; nonlinear equations; numerical analysis; path planning; terrain mapping; wheelchairs; 2D path planning; 3D path planning; 3D surface; Lipschitz condition; energy function; geodesic curve; geodesic path planning; gradient descent method; mobile platform; mobile robot; nonflat terrain; nonlinear geodesic equation; numerical simulation; parametrized regular surface; planar map; shortest path planning; target position; wheelchair; Equations; Mathematical model; Mobile robots; Path planning; Planning; Robot kinematics;
Conference_Titel :
Control & Automation (ICCA), 11th IEEE International Conference on
Conference_Location :
Taichung
DOI :
10.1109/ICCA.2014.6870943
