Planning for Automated Testing of Implicit Constraints in Behavior Trees

International Conference on Automated Planning and Scheduling Pub Date : 2023-07-01 DOI:10.1609/icaps.v33i1.27247

Uwe Köckemann, D. Calisi, Guglielmo Gemignani, Jennifer Renoux, A. Saffiotti

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Abstract

Behavior Trees (BTs) are a formalism increasingly used to control the execution of robotic systems. The strength of BTs resides in their compact, hierarchical and transparent representation. However, when used in practical applications transparency is often hindered by the introduction of implicit run-time relations between nodes, e.g., because of data dependencies or hardware-related ordering constraints. Manually verifying the correctness of a BT with respect to these hidden relations is a tedious and error-prone task. This paper presents a modular planning-based approach for automatically testing BTs offline at design time, to identify possible executions that may violate given data and ordering constraints and to exhibit traces of these executions to help debugging. Our approach supports both basic and advanced BT node types, e.g., supporting parallel behaviors, and can be extended with other node types as needed. We evaluate our approach on BTs used in a commercially deployed robotics system and on a large set of randomly generated trees showing that our approach scales to realistic sizes of more than 3000 nodes.

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行为树中隐式约束的自动化测试计划

行为树(bt)是一种越来越多地用于控制机器人系统执行的形式。bt的优势在于其紧凑，分层和透明的表示。然而，在实际应用中使用透明性时，常常会受到节点之间引入隐式运行时关系的阻碍，例如，由于数据依赖性或与硬件相关的排序约束。根据这些隐藏关系手动验证BT的正确性是一项繁琐且容易出错的任务。本文提出了一种基于模块化计划的方法，用于在设计时自动离线测试bt，以识别可能违反给定数据和顺序约束的可能执行，并显示这些执行的痕迹，以帮助调试。我们的方法支持基本和高级BT节点类型，例如，支持并行行为，并且可以根据需要扩展到其他节点类型。我们在商业部署的机器人系统中使用的bt和大量随机生成的树上评估了我们的方法，表明我们的方法可以扩展到超过3000个节点的实际大小。

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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