基于 POMDP 的运动规划的非线性度量

Marcus Hoerger, Hanna Kurniawati, Alberto Elfes
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引用次数: 0

摘要

不确定性条件下的运动规划对于机器人的可靠运行至关重要。尽管在过去十年中取得了长足进步,但对于具有复杂动力学特性的系统来说,这一问题仍然十分棘手。大多数最先进的方法都是依靠大量的前向模拟来进行搜索。对于具有复杂动力学特性的系统,这通常需要高成本的数值积分,从而大大降低了规划过程的速度。基于线性化的方法可以缓解上述问题。然而,线性化如何影响生成运动策略的质量,以及何时可以进行简化,这些问题都还不清楚。为了回答这些问题,我们提出了一种非线性度量方法,称为基于统计距离的非线性度量(SNM),它可以识别线性化在哪些方面是有益的,哪些方面应该避免。我们的研究表明,当问题被框定为 "部分可观测马尔可夫决策过程 "时,原始模型和线性化模型的最优策略之间的价值差异可以通过 SNM 的线性函数来确定上限。与现有的针对各种情况的测量方法相比,SNM 更适用于估算基于线性化求解器的有效性。为了测试 SNM 在运动规划中的适用性,我们提出了一个简单的在线规划器,该规划器使用 SNM 作为启发式,在通用求解器和基于线性化的求解器之间进行切换。在具有二阶动力学和 4-DOFs 及 7-DOFs 扭矩控制机械手的类车机器人上取得的结果表明,SNM 可以适当地决定是否以及何时使用基于线性化的求解器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Non-linearity Measure for POMDP-based Motion Planning
Motion planning under uncertainty is essential for reliable robot operation. Despite substantial advances over the past decade, the problem remains difficult for systems with complex dynamics. Most state-of-the-art methods perform search that relies on a large number of forward simulations. For systems with complex dynamics, this generally requires costly numerical integrations, which significantly slows down the planning process. Linearization-based methods have been proposed that can alleviate the above problem. However, it is not clear how linearization affects the quality of the generated motion strategy, and when such simplifications are admissible. To answer these questions, we propose a non-linearity measure, called Statistical-distance-based Non-linearity Measure (SNM), that can identify where linearization is beneficial and where it should be avoided. We show that when the problem is framed as the Partially Observable Markov Decision Process, the value difference between the optimal strategy for the original model and the linearized model can be upper-bounded by a function linear in SNM. Comparisons with an existing measure on various scenarios indicate that SNM is more suitable in estimating the effectiveness of linearization-based solvers. To test the applicability of SNM in motion planning, we propose a simple online planner that uses SNM as a heuristic to switch between a general and a linearization-based solver. Results on a car-like robot with second order dynamics and 4-DOFs and 7-DOFs torque-controlled manipulators indicate that SNM can appropriately decide if and when a linearization-based solver should be used.
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