A Quality Diversity Approach to Automatically Generate Multi-Agent Path Finding Benchmark Maps

Cheng Qian, Yulun Zhang, Varun Bhatt, Matthew Christopher Fontaine, Stefanos Nikolaidis, Jiaoyang Li
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Abstract

We use the Quality Diversity (QD) algorithm with Neural Cellular Automata (NCA) to generate benchmark maps for Multi-Agent Path Finding (MAPF) algorithms. Previously, MAPF algorithms are tested using fixed, human-designed benchmark maps. However, such fixed benchmark maps have several problems. First, these maps may not cover all the potential failure scenarios for the algorithms. Second, when comparing different algorithms, fixed benchmark maps may introduce bias leading to unfair comparisons between algorithms. In this work, we take advantage of the QD algorithm and NCA with different objectives and diversity measures to generate maps with patterns to comprehensively understand the performance of MAPF algorithms and be able to make fair comparisons between two MAPF algorithms to provide further information on the selection between two algorithms. Empirically, we employ this technique to generate diverse benchmark maps to evaluate and compare the behavior of different types of MAPF algorithms such as bounded-suboptimal algorithms, suboptimal algorithms, and reinforcement-learning-based algorithms. Through both single-planner experiments and comparisons between algorithms, we identify patterns where each algorithm excels and detect disparities in runtime or success rates between different algorithms.
自动生成多代理路径查找基准图的质量多样性方法
我们利用质量多样性(QD)算法和神经细胞自动机(NCA)为多代理路径查找(MAPF)算法生成基准地图。以往,MAPF 算法都是使用固定的、人为设计的基准图进行测试。然而,这种固定基准图存在几个问题:首先,这些基准图可能无法涵盖算法的所有潜在故障情况。其次,在比较不同算法时,固定基准图可能会引入偏差,导致算法之间的比较不公平。在这项工作中,我们利用 QD 算法和 NCA 的不同目标和多样性度量来生成具有模式的地图,以全面了解 MAPF 算法的性能,并能够在两种 MAPF 算法之间进行公平比较,从而为两种算法之间的选择提供进一步的信息。在实证研究中,我们利用该技术生成了多种基准图,以评估和比较不同类型的 MAPF 算法,如有界次优算法、次优算法和基于强化学习的算法。通过单规划实验和算法之间的比较,我们确定了每种算法的优势模式,并发现了不同算法在运行时间或成功率上的差异。
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