eLIAN: Enhanced Algorithm for Angle-Constrained Path Finding

Problem of finding 2D paths of special shape, e.g. paths comprised of line segments having the property that the angle between any two consecutive segments does not exceed the predefined threshold, is considered in the paper. This problem is harder to solve than the one when shortest paths of any shape are sought, since the planer's search space is substantially bigger as multiple search nodes corresponding to the same location need to be considered. One way to reduce the search effort is to fix the length of the path's segment and to prune the nodes that violate the imposed constraint. This leads to incompleteness and to the sensitivity of the's performance to chosen parameter value. In this work we introduce a novel technique that reduces this sensitivity by automatically adjusting the length of the path's segment on-the-fly, e.g. during the search. Embedding this technique into the known grid-based angle-constrained path finding algorithm LIAN, leads to notable increase of the planner's effectiveness, e.g. success rate, while keeping efficiency, e.g. runtime, overhead at reasonable level. Experimental evaluation shows that LIAN with the suggested enhancements, dubbed eLIAN, solves up to 20% of tasks more compared to the predecessor. Meanwhile, the solution quality of eLIAN is nearly the same as the one of LIAN.

Authors
Andreychuk A. 1 , Soboleva N.2 , Yakovlev K. 2, 3, 4
Publisher
Springer Verlag
Language
English
Pages
206-217
Status
Published
Volume
934
Year
2018
Organizations
  • 1 Peoples Friendship Univ Russia, Moscow, Russia
  • 2 Natl Res Univ, Higher Sch Econ, Moscow, Russia
  • 3 Russian Acad Sci, Fed Res Ctr Comp Sci & Control, Moscow, Russia
  • 4 Moscow Inst Phys & Technol, Dolgoprudnyi, Russia
Keywords
Path planning; Path finding; Grid; Angle-constrained; LIAN
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