An Efficient Algorithm for Computing High-Quality Paths amid Polygonal Obstacles

Abstract

We study a path-planning problem amid a set O of obstacles in R2, in which we wish to compute a short path between two points while also maintaining a high clearance from O; the clearance of a point is its distance from a nearest obstacle in O. Specifically, the problem asks for a path minimizing the reciprocal of the clearance integrated over the length of the path. We present the first polynomial-time approximation scheme for this problem. Let n be the total number of obstacle vertices and let ∈ (0,1]. Our algorithm computes in time O(n2 2 n) a path of total cost at most (1+) times the cost of the optimal path.