Locomotion Dynamics of a Miniature Wave-Like Robot, Modeling and Experiments

Drory Lee-Hee, David Zarrouk
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引用次数: 10

Abstract

In a recent study, we developed a minimally actuated wave-like robot and analyzed its kinematics. In this paper, we present the dynamic locomotion analysis of a miniature version of this wave robot. We examine different crawling environments, determine under which conditions it can advance, and evaluate its propulsion force. We first developed two locomotion models to characterize the cases where the robot is crawling between two straight surfaces or over a single flat surface. We specified the conditions in which the robot will advance and the advance time ratio as a function of the friction forces and weight of the robot. Next, we developed highly flexible tube-like shapes that we molded from silicone rubber to experimentally test the forces acting on the robot inside these tubes. Finally, we designed a miniature model of the robot and experimentally validated its crawling conditions (see video).
微型波浪型机器人的运动动力学,建模与实验
在最近的一项研究中,我们开发了一个最小驱动的波浪型机器人,并分析了它的运动学。在本文中,我们提出了一个微型版本的波浪机器人的动态运动分析。我们研究了不同的爬行环境,确定在哪些条件下它可以前进,并评估其推进力。我们首先开发了两个运动模型来描述机器人在两个直线表面之间或在单个平面上爬行的情况。我们指定了机器人前进的条件和前进时间比作为摩擦力和机器人重量的函数。接下来,我们开发了高度灵活的管状形状,我们用硅橡胶模制,实验测试作用在这些管里的机器人上的力。最后,我们设计了一个机器人的微型模型,并通过实验验证了它的爬行条件(见视频)。
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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