Parallelizing Multi-objective A* Search

Authors

  • Saman Ahmadi Royal Melbourne Institute of Technology
  • Nathan R. Sturtevant University of Alberta
  • Andrea Raith University of Auckland
  • Daniel Harabor Monash University
  • Mahdi Jalili Royal Melbourne Institute of Technology

DOI:

https://doi.org/10.1609/icaps.v35i1.36109

Abstract

The Multi-objective Shortest Path (MOSP) problem is a classic network optimization problem that aims to find all Pareto-optimal paths between two points in a graph with multiple edge costs. Recent studies on multi-objective search with A* (MOA*) have demonstrated superior performance in solving difficult MOSP instances. This paper presents a novel search framework that allows efficient parallelization of MOA* with different objective orders. The framework incorporates a unique upper-bounding strategy that helps the search reduce the problem's dimensionality to one in certain cases. Experimental results demonstrate that the proposed framework can enhance the performance of recent A*-based solutions, with the speed-up proportional to the problem dimension.
ICAPS-25 Proceedings Cover

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Published

2025-09-16

How to Cite

Ahmadi, S., Sturtevant, N. R., Raith, A., Harabor, D., & Jalili, M. (2025). Parallelizing Multi-objective A* Search. Proceedings of the International Conference on Automated Planning and Scheduling, 35(1), 131–139. https://doi.org/10.1609/icaps.v35i1.36109

Issue

Vol. 35 (2025): Proceedings of the Thirty-Fifth International Conference on Automated Planning and Scheduling

Section

Algorithmic papers