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WADS
1997
Springer

Dynamic Motion Planning in Low Obstacle Density Environments

14 years 4 months ago
Dynamic Motion Planning in Low Obstacle Density Environments
A fundamental task for an autonomous robot is to plan its own motions. Exact approaches to the solution of this motion planning problem suffer from high worst-case running times. The weak and realistic low obstacle density (L.O.D.) assumption results in linear complexity in the number of obstacles of the free space [11]. In this paper we address the dynamic version of the motion planning problem in which a robot moves among moving polygonal obstacles. The obstacles are assumed to move along constant complexity polylines, and to respect the low density property at any given time. We will show that in this situation a cell decomposition of the free space of size On2 n log 2 n can be computed in On2 n log 2 n time. The dynamic motion planning problem is then solved in On2 n log 3 n time. We also show that these results are close to optimal.
Robert-Paul Berretty, Mark H. Overmars, A. Frank v
Added 08 Aug 2010
Updated 08 Aug 2010
Type Conference
Year 1997
Where WADS
Authors Robert-Paul Berretty, Mark H. Overmars, A. Frank van der Stappen
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