复杂平面机器人的软细分运动规划

Bo Zhou, Yi-Jen Chiang, C. Yap
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引用次数: 4

摘要

理论上合理的机器人运动规划算法的设计和实现是具有挑战性的。在分辨率精确算法的框架内,可以利用软谓词进行碰撞检测。软谓词的设计需要在易于实现的谓词和它们的准确性/有效性之间取得平衡。本文主要研究一类具有任意复杂几何结构的平面多边形刚性机器人。我们利用了这类机器人的软碰撞检测谓词显著的可分解性。我们将介绍产生这种分解的一般技术。如果机器人是一个m-gon,这种方法的复杂性在m中线性扩展。这与精确规划者已知的O(m^3)复杂性形成对比。接下去我们现在可以经常产生软谓词对于任何刚性多边形机器人。这导致在一般软细分搜索(SSS)框架内为此类机器人提供分辨率精确的规划器。这是平面机器人完整规划理论的重大进展。我们在我们的开源核心库中实现了这样的分解谓词。实验表明,我们的算法是有效的,在非平凡环境下可以实时执行,并且优于许多基于采样的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Soft Subdivision Motion Planning for Complex Planar Robots
The design and implementation of theoretically-sound robot motion planning algorithms is challenging. Within the framework of resolution-exact algorithms, it is possible to exploit soft predicates for collision detection. The design of soft predicates is a balancing act between easily implementable predicates and their accuracy/effectivity. In this paper, we focus on the class of planar polygonal rigid robots with arbitrarily complex geometry. We exploit the remarkable decomposability property of soft collision-detection predicates of such robots. We introduce a general technique to produce such a decomposition. If the robot is an m-gon, the complexity of this approach scales linearly in m. This contrasts with the O(m^3) complexity known for exact planners. It follows that we can now routinely produce soft predicates for any rigid polygonal robot. This results in resolution-exact planners for such robots within the general Soft Subdivision Search (SSS) framework. This is a significant advancement in the theory of sound and complete planners for planar robots. We implemented such decomposed predicates in our open-source Core Library. The experiments show that our algorithms are effective, perform in real time on non-trivial environments, and can outperform many sampling-based methods.
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