多连杆爬行机器人克服楼梯飞行问题

2020 International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM) Pub Date : 2020-05-01 DOI:10.1109/ICIEAM48468.2020.9112020

L. Vorochaeva, S. Savin, A. Yatsun

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引用次数: 3

摘要

本文考虑了一种三连杆爬行机器人，它结合了毛毛虫、蛇和蠕虫爬行系统的能力，并配备了可变摩擦系数的可控支撑。通过一个设备爬上一个台阶的例子，描述了克服一段楼梯的算法。指定的算法包括两个阶段:定位(本文未研究)和爬上一个台阶。后者分为12个阶段，每个阶段在表面固定两个或三个支架。第1-11阶段发生在与楼梯平行的垂直平面上(毛虫状运动)，第12阶段发生在水平面上(蛇形运动)。此外，在许多阶段，可以观察到连接的伸长/缩短(类似蠕虫的运动原理)。数值实验结果证实了该算法的执行性。

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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Solving the Problem of Overcoming a Staircase Flight by a Multi-Link Crawling Robot

The paper considers a three-link crawling robot combining the capabilities of a caterpillar-, snake- and worm-like crawling systems, as well as equipped with controlled supports with a variable coefficient of friction. An algorithm of overcoming a flight of stairs is described using the example of a device crawling onto one step. The specified algorithm consists of two stages: positioning (not studied in this paper) and the crawling onto a step. The latter is divided into 12 stages, during each of which two or three supports are fixed on the surface. Stages 1-11 occur in a vertical plane parallel to the flight of stairs (caterpillar-like movement), and stage 12 - in the horizontal plane (serpentine-like movement). Also, at a number of stages, the elongation / shortening of the links is observed (a worm-like principle of movement). The execution adequacy of the algorithm of crawling onto a step is confirmed by the results of a numerical experiment.

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2020 International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM)

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