Efficient Multi-Query Bi-Objective Search via Contraction Hierarchies

Authors

  • Han Zhang University of Southern California
  • Oren Salzman Technion
  • Ariel Felner Ben-Gurion University
  • T. K. Satish Kumar University of Southern California
  • Carlos Hernández Ulloa Universidad San Sebastián
  • Sven Koenig University of Southern California

DOI:

https://doi.org/10.1609/icaps.v33i1.27225

Keywords:

Heuristic search

Abstract

Contraction Hierarchies (CHs) have been successfully used as a preprocessing technique in single-objective graph search for finding shortest paths. However, only a few existing works on utilizing CHs for bi-objective search exist, and none of them uses CHs to compute Pareto frontiers. This paper proposes an CH-based approach capable of efficiently computing Pareto frontiers for bi-objective search along with several speedup techniques. Specifically, we propose a new preprocessing approach that computes CHs with fewer edges than the existing preprocessing approach, which reduces both the preprocessing times (up to 3x in our experiments) and the query times. Furthermore, we propose a partial-expansion technique, which dramatically speeds up the query times. We demonstrate the advantages of our approach on road networks with 1 to 14 million states. The longest preprocessing time is less than 6 hours, and the average speedup in query times is roughly two orders of magnitude compared to BOA*, a state-of-the-art single-query bi-objective search algorithm.
ICAPS-23 Proceedings Cover

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Published

2023-07-01

How to Cite

Zhang, H., Salzman, O., Felner, A., Kumar, T. K. S., Hernández Ulloa, C., & Koenig, S. (2023). Efficient Multi-Query Bi-Objective Search via Contraction Hierarchies. Proceedings of the International Conference on Automated Planning and Scheduling, 33(1), 452-461. https://doi.org/10.1609/icaps.v33i1.27225

Issue

Vol. 33 (2023): Proceedings of the Thirty-Third International Conference on Automated Planning and Scheduling

Section

Main Track