Proceedings:
Proceedings of the International Symposium on Combinatorial Search, 4
Volume
Issue:
Vol. 4 No. 1 (2011): Fourth Annual Symposium on Combinatorial Search
Track:
Full Papers
Downloads:
Abstract:
Multi-agent pathfinding, where multiple agents must travel to their goal locations without getting stuck, has been studied in both theoretical and practical contexts, with a variety of both optimal and sub-optimal algorithms proposed for solving problems. Recent work has shown that there is a linear-time check for whether a multi-agent pathfinding problem can be solved in a tree, however this was not used to actually produce solutions. In this paper we provide a constructive proof of how to solve multi-agent pathfinding problems in a tree that culminates in a novel approach that we call the tree-based agent swapping strategy (TASS). Experimental results showed that TASS can find solutions to the multi-agent pathfinding problem on a highly crowded tree with 1000 nodes and 996 agents in less than 8 seconds. These results are far more efficient and general than existing work, suggesting that TASS is a productive line of study for multi-agent pathfinding.
DOI:
10.1609/socs.v2i1.18205
SOCS
Vol. 4 No. 1 (2011): Fourth Annual Symposium on Combinatorial Search