Debugging a Policy: Automatic Action-Policy Testing in AI Planning

International Conference on Automated Planning and Scheduling Pub Date : 2022-06-13 DOI:10.1609/icaps.v32i1.19820

Marcel Steinmetz, Daniel Fiser, Hasan Ferit Eniser, Patrick Ferber, Timo P. Gros, Philippe, Heim, D. Höller, Xandra Schuler, Valentin Wüstholz, M. Christakis, Jörg Hoffmann

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引用次数: 3

Abstract

Testing is a promising way to gain trust in neural action policies π. Previous work on policy testing in sequential decision making targeted environment behavior leading to failure conditions. But if the failure is unavoidable given that behavior, then π is not actually to blame. For a situation to qualify as a "bug" in π, there must be an alternative policy π' that does better. We introduce a generic policy testing framework based on that intuition. This raises the bug confirmation problem, deciding whether or not a state is a bug. We analyze the use of optimistic and pessimistic bounds for the design of test oracles approximating that problem. We contribute an implementation of our framework in classical planning, experimenting with several test oracles and with random-walk methods generating test states biased to poor policy performance and/or state novelty. We evaluate these techniques on policies π learned with ASNets. We find that they are able to effectively identify bugs in these π, and that our random-walk biases improve over uninformed baselines.

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调试策略:AI规划中的自动动作策略测试

测试是神经行为策略中获得信任的一种很有前途的方法。先前在序贯决策中策略测试的研究针对导致失败的环境行为。但是，如果失败是不可避免的，考虑到这种行为，那么π实际上并不是罪魁祸首。如果一种情况符合π的“缺陷”，那么一定有另一种策略π'做得更好。我们基于这种直觉引入了一个通用策略测试框架。这就产生了bug确认问题，即决定一个状态是否为bug。我们分析了使用乐观界和悲观界来设计近似该问题的测试预言机。我们在经典规划中贡献了我们的框架的实现，用几个测试预言机和随机漫步方法进行实验，生成偏向于差策略性能和/或状态新颖性的测试状态。我们在使用ASNets学习的策略π上评估这些技术。我们发现它们能够有效地识别这些π中的错误，并且我们的随机漫步偏差在不知情的基线上得到改善。

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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International Conference on Automated Planning and Scheduling

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