平面有界物体的平均距离最小化运动扫描

Advances in robot kinematics Pub Date : 2024-01-01 Epub Date: 2024-07-03 DOI:10.1007/978-3-031-64057-5_23

Huan Liu, Qiaode Jeffrey Ge

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引用次数: 0

摘要

本文研究的问题是，相对于无限大的运动平面，如何在有界物体的两个位置之间构建插值平面运动。研究的核心是度量问题，即如何描述有界物体两个位置之间的空间间隔或 "距离"。由 Kazerounian 和 Rastegar [5] 提出并由 Chirikjian 和 Zhou [1] 改进的 "与形状相关的物体规范 "概念被用来计算有界物体所有点的两个位置之间的平均距离。有界物体的 "理想 "插值运动（本文称之为运动扫描）是这样一种运动：在运动的每个中间位置，从该中间位置到每个终点位置的平均距离之和最小。研究发现，由此产生的运动扫频并不是通常所知的将平移和旋转部分独立进行线性插值的运动，而是一种新型的直线运动，即平移部分与旋转部分通过正弦函数 sin 1 - t Δ θ 和 sin t Δ θ 相耦合，其中 Δ θ 是旋转角度的范围，而不是通常的 1 - t 和 t（不包括 Δ θ）。

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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An Average-Distance Minimizing Motion Sweep for Planar Bounded Objects.

This paper studies the problem of how to construct an interpolating planar motion between two positions of a bounded object as opposed to an infinitely large moving plane. Central to this investigation is the question of metrics, i.e., how to characterize the spatial separation or "distance" between two positions of the bounded object. The concept of shape dependent object norms proposed by Kazerounian and Rastegar [5] and refined by Chirikjian and Zhou [1] were used to compute the average distance between two positions for all points of the bounded body. The "ideal" interpolating motion of a bounded object, called motion sweep in this paper, is the one such that, at every intermediate position along the motion, the sum of the average distances from this intermediate position to each of the end positions is minimized. It is found that the resulting motion sweep is not the commonly known motion that linearly interpolates both translation and rotation parts independently but a new type of straight-line motion such that the translational part is coupled to the rotation part via sinusoidal functions $sin ((1 - t) Δ θ)$ and $sin (t Δ θ)$ , where $Δ θ$ is the range of rotation angle, instead of the usual $(1 - t)$ and $t$ without including $Δ θ$ .

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Advances in robot kinematics

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