An Optimal Algorithm for Shortest Paths in Unweighted Disk Graphs

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Authors Bruce W. Brewer, Haitao Wang arXiv ID 2507.05569 Category cs.CG: Computational Geometry Cross-listed cs.DS Citations 1 Venue Embedded Systems and Applications Last Checked 3 months ago
Abstract
Given in the plane a set $S$ of $n$ points and a set of disks centered at these points, the disk graph $G(S)$ induced by these disks has vertex set $S$ and an edge between two vertices if their disks intersect. Note that the disks may have different radii. We consider the problem of computing shortest paths from a source point $s\in S$ to all vertices in $G(S)$ where the length of a path in $G(S)$ is defined as the number of edges in the path. The previously best algorithm solves the problem in $O(n\log^2 n)$ time. A lower bound of $Ξ©(n\log n)$ is also known for this problem under the algebraic decision tree model. In this paper, we present an $O(n\log n)$ time algorithm, which matches the lower bound and thus is optimal. Another virtue of our algorithm is that it is quite simple.
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