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Exact Wavefront Propagation for Globally Optimal One-to-All Path Planning on 2D Cartesian Grids

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arxiv 2409.11545 v2 pith:AXJBGMVN submitted 2024-09-17 cs.RO cs.CG

Exact Wavefront Propagation for Globally Optimal One-to-All Path Planning on 2D Cartesian Grids

classification cs.RO cs.CG
keywords pathalgorithmgloballyoptimalcartesianexactexistinggrids
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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This paper introduces an efficient $\mathcal{O}(n)$ compute and memory complexity algorithm for globally optimal path planning on 2D Cartesian grids. Unlike existing marching methods that rely on approximate discretized solutions to the Eikonal equation, our approach achieves exact wavefront propagation by pivoting the analytic distance function based on visibility. The algorithm leverages a dynamic-programming subroutine to efficiently evaluate visibility queries. Through benchmarking against state-of-the-art any-angle path planners, we demonstrate that our method outperforms existing approaches in both speed and accuracy, particularly in cluttered environments. Notably, our method inherently provides globally optimal paths to all grid points, eliminating the need for additional gradient descent steps per path query. The same capability extends to multiple starting positions. We also provide a greedy version of our algorithm as well as open-source C++ implementation of our solver.

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