Unscented Trajectory Optimization

arXiv - MATH - Statistics Theory Pub Date : 2024-05-04 DOI:arxiv-2405.02753

I. M. Ross, R. J. Proulx, M. Karpenko

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Abstract

In a nutshell, unscented trajectory optimization is the generation of optimal trajectories through the use of an unscented transform. Although unscented trajectory optimization was introduced by the authors about a decade ago, it is reintroduced in this paper as a special instantiation of tychastic optimal control theory. Tychastic optimal control theory (from \textit{Tyche}, the Greek goddess of chance) avoids the use of a Brownian motion and the resulting It\^{o} calculus even though it uses random variables across the entire spectrum of a problem formulation. This approach circumvents the enormous technical and numerical challenges associated with stochastic trajectory optimization. Furthermore, it is shown how a tychastic optimal control problem that involves nonlinear transformations of the expectation operator can be quickly instantiated using an unscented transform. These nonlinear transformations are particularly useful in managing trajectory dispersions be it associated with path constraints or targeted values of final-time conditions. This paper also presents a systematic and rapid process for formulating and computing the most desirable tychastic trajectory using an unscented transform. Numerical examples are used to illustrate how unscented trajectory optimization may be used for risk reduction and mission recovery caused by uncertainties and failures.

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无色轨迹优化

简而言之，无特征轨迹优化就是通过使用无特征变换生成最优轨迹。虽然无特征轨迹优化是作者在大约十年前提出的，但本文将其作为tychastic最优控制理论的一个特殊实例加以介绍。tychastic最优控制理论（源自希腊的机会女神textit{Tyche}）避免使用布朗运动和由此产生的It\^{o}微积分，即使它在问题表述的整个过程中使用随机变量。这种方法规避了与随机轨迹优化相关的巨大技术和数值挑战。此外，它还展示了如何使用无符号变换快速实例化涉及期望算子非线性变换的tychastic最优控制问题。这些非线性变换在管理与路径约束或最终时间条件的目标值相关的轨迹离散方面特别有用。本文还介绍了一种系统化的快速流程，用于使用非香味变换制定和计算最理想的非线性轨迹。通过数值示例，说明了无特征轨迹优化如何用于降低不确定性和故障导致的风险和任务恢复。

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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arXiv - MATH - Statistics Theory

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