三分之二幂律源于高阶派生作用

arXiv - PHYS - Classical Physics Pub Date : 2024-05-24 DOI:arxiv-2405.15503

N. Boulanger, F. Buisseret, F. Dierick, O. White

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引用次数: 0

摘要

三分之二幂律是在人类自主运动中观察到的角速度 $\omega$ 和曲率 $\kappa$ 之间的联系：$\omega$ 与 $\kappa^{2/3}$ 成正比。众所周知，抽动平方是导致后一定律的拉格朗日。我们提出了一类更广泛的高阶衍生拉格朗日导致三分之二幂律，并通过奥斯特罗格拉兹基程序进行哈密顿分析，从而得出动作角度变量。在这一框架中，挺举平方作为动作变量出现，其最小化可能与运动过程中的动力消耗最小化有关。因此，确定的较高派生拉格朗日是成本函数的自然候选者，即在一个人进行自主运动时以最小化为目标的运动函数。

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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The two-thirds power law derived from an higher-derivative action

The two-thirds power law is a link between angular speed $\omega$ and curvature $\kappa$ observed in voluntary human movements: $\omega$ is proportional to $\kappa^{2/3}$. Squared jerk is known to be a Lagrangian leading to the latter law. We propose that a broader class of higher-derivative Lagrangians leads to the two-thirds power law and we perform the Hamiltonian analysis leading to action-angle variables through Ostrogradski's procedure. In this framework, squared jerk appears as an action variable and its minimization may be related to power expenditure minimization during motion. The identified higher-derivative Lagrangians are therefore natural candidates for cost functions, i.e. movement functions that are targeted to be minimal when one individual performs a voluntary movement.

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arXiv - PHYS - Classical Physics

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