Approximate Distance Oracle for Fault-Tolerant Geometric Spanners

Authors

  • Kyungjin Cho POSTECH
  • Jihun Shin POSTECH
  • Eunjin Oh POSTECH

DOI:

https://doi.org/10.1609/aaai.v38i18.29987

Keywords:

PRS: Routing

Abstract

In this paper, we present approximate distance and shortest-path oracles for fault-tolerant Euclidean spanners motivated by the routing problem in real-world road networks. A fault-tolerant Euclidean spanner for a set of points in Euclidean space is a graph in which, despite the deletion of small number of any points, the distance between any two points in the damaged graph is an approximation of their Euclidean distance. Given a fault-tolerant Euclidean spanner and a small approximation factor, our data structure allows us to compute an approximate distance between two points in the damaged spanner in constant time when a query involves any two points and a small set of failed points. Additionally, by incorporating additional data structures, we can return a path itself in time almost linear in the length of the returned path. Both data structures require near-linear space.

Published

2024-03-24

How to Cite

Cho, K., Shin, J., & Oh, E. (2024). Approximate Distance Oracle for Fault-Tolerant Geometric Spanners. Proceedings of the AAAI Conference on Artificial Intelligence, 38(18), 20087-20095. https://doi.org/10.1609/aaai.v38i18.29987

Issue

Section

AAAI Technical Track on Planning, Routing, and Scheduling