A Divide-and-Conquer Algorithm for Two-Point L_1 Shortest Path Queries in Polygonal Domains
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Let P be a polygonal domain of h holes and n vertices. We study the problem of constructing a data structure that can compute a shortest path between s and t in P under the L_1 metric for any two query points s and t. To do so, a standard approach is to first find a set of n_s "gateways" for s and a set of n_t "gateways" for t such that there exist a shortest s-t path containing a gateway of s and a gateway of t, and then compute a shortest s-t path using these gateways. Previous algorithms all take quadratic O(n_s· n_t) time to solve this problem. In this paper, we propose a divide-and-conquer technique that solves the problem in O(n_s + n_t n_s) time. As a consequence, we construct a data structure of O(n+(h^2^3 h/ h)) size in O(n+(h^2^4 h/ h)) time such that each query can be answered in O( n) time.
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