Generating SAS+ Planning Tasks of Specified Causal Structure

Symposium on Combinatorial Search Pub Date : 2023-07-02 DOI:10.1609/socs.v16i1.27280

Michael Katz, Junkyu Lee, Shirin Sohrabi

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Abstract

Recent advances in data-driven approaches in AI planning demand more and more planning tasks. The supply, however, is somewhat limited. Past International Planning Competitions (IPCs) have introduced the de-facto standard benchmarks with the domains written by domain experts. The few existing methods for sampling random planning tasks severely limit the resulting problem structure. In this work we show a method for generating planning tasks of any requested causal graph structure, alleviating the shortage in existing planning benchmarks. We present an algorithm for constructing random SAS+ planning tasks given an arbitrary causal graph and offer random task generators for the well-explored causal graph structures in the planning literature. We further allow to generate a planning task equivalent in causal structure to an input SAS+ planning task. We generate two benchmark sets: 26 collections for select well-explored causal graph structures and 42 collections for existing IPC domains. We evaluate both benchmark sets with the state-of-the-art optimal planners, showing the adequacy for adopting them as benchmarks in cost-optimal classical planning. The benchmark sets and the task generator code are publicly available at https://github.com/IBM/fdr-generator.

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生成SAS+指定因果结构的规划任务

人工智能规划中数据驱动方法的最新进展需要越来越多的规划任务。然而，供应是有限的。过去的国际规划竞赛(IPCs)已经引入了由领域专家编写的领域的事实上的标准基准。现有的几种随机规划任务抽样方法严重限制了得到的问题结构。在这项工作中，我们展示了一种生成任何要求的因果图结构的规划任务的方法，减轻了现有规划基准的不足。在给定任意因果图的情况下，我们提出了一种构造随机SAS+规划任务的算法，并为规划文献中研究得很好的因果图结构提供了随机任务生成器。我们进一步允许生成一个在因果结构上等同于输入SAS+规划任务的规划任务。我们生成了两个基准集:26个集合用于选择充分探索的因果图结构，42个集合用于现有的IPC域。我们用最先进的最优规划者来评估这两个基准集，显示了在成本最优经典规划中采用它们作为基准的充分性。基准测试集和任务生成器代码可在https://github.com/IBM/fdr-generator上公开获得。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Symposium on Combinatorial Search

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