Capturing the Connectivity of High-Dimensional Geometric Spaces by Parallelizable Random Sampling Techniques
نویسندگان
چکیده
Finding paths in high-dimensional gemetric spaces is a provably hard problem. Recently, a general randomized planning scheme has emerged as an e ective approach to solve this problem. In this scheme, the planner samples the space at random and build a network of simple paths, called a probabilistic roadmap. This paper describes a basic probabilistic roadmap planner, which is easily parallelizable, and provides a formal analysis that explains its empirical success when the space satises two geometric properties called -goodness and expansiveness.
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