论文信息 - Rapid Randomized Restarts for Multi-Agent Path Finding: Preliminary Results

Rapid Randomized Restarts for Multi-Agent Path Finding: Preliminary Results

Multi-Agent Path Finding (MAPF) is an NP-hard problem with many real-world applications. However, existing MAPF solvers are deterministic and perform poorly on MAPF instances where many agents interfere with each other in a small region of space. In this paper, we enhance MAPF solvers with randomization and observe that their runtimes can exhibit heavy-tailed distributions. This insight leads us to develop simple Rapid Randomized Restart (RRR) strategies with the intuition that multiple short runs will have a better chance of solving such MAPF instances than one long run with the same runtime limit. Our contribution is to show experimentally that the same RRR strategy indeed boosts the performance of two state-of-the-art MAPF solvers, namely M* and ECBS.

[1] Steven M. LaValle,et al. Structure and Intractability of Optimal Multi-Robot Path Planning on Graphs , 2013, AAAI.

[2] Glenn Wagner,et al. Subdimensional Expansion: A Framework for Computationally Tractable Multirobot Path Planning , 2015 .

[3] Nathan R. Sturtevant,et al. Simultaneously Searching with Multiple Settings: An Alternative to Parameter Tuning for Suboptimal Single-Agent Search Algorithms , 2010, SOCS.

[4] Roni Stern,et al. Suboptimal Variants of the Conflict-Based Search Algorithm for the Multi-Agent Pathfinding Problem , 2014, SOCS.

[5] S. Foss,et al. An Introduction to Heavy-Tailed and Subexponential Distributions , 2011 .

[6] Bart Selman,et al. Heavy-Tailed Phenomena in Satisfiability and Constraint Satisfaction Problems , 2000, Journal of Automated Reasoning.

[7] Hong Xu,et al. Improved Solvers for Bounded-Suboptimal Multi-Agent Path Finding , 2016, IJCAI.

[8] Sven Koenig,et al. Feasibility Study: Using Highways for Bounded-Suboptimal Multi-Agent Path Finding , 2015, SOCS.