Design and Control of 7-DOF Omni-directional Hexapod Robot

IF 1.1 Q3 COMPUTER SCIENCE, THEORY & METHODS
Marek Zak, Jaroslav Rozman, F. Zboril
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引用次数: 6

Abstract

Abstract Legged robots have great potential to travel across various types of terrain. Their many degrees of freedom enable them to navigate through difficult terrains, narrow spaces or various obstacles and they can move even after losing a leg. However, legged robots mostly move quite slowly. This paper deals with the design and construction of an omni-directional seven degrees of freedom hexapod (i.e., six-legged) robot, which is equipped with omnidirectional wheels (two degrees of freedom are used, one for turning the wheel and one for the wheel itself) usable on flat terrain to increase travel speed and an additional coxa joint that makes the robot more robust when climbing inclined terrains. This unique combination of omnidirectional wheels and additional coxa joint makes the robot not only much faster but also more robust in rough terrains and allows the robot to ride inclined terrains up to 40 degrees and remain statically stable in slopes up to 50 degrees. The robot is controlled by a terrain adaptive movement controller which adjusts the movement speed and the gait of the robot according to terrain conditions.
七自由度全向六足机器人的设计与控制
摘要有腿机器人具有穿越各种地形的巨大潜力。它们的许多自由度使它们能够在困难的地形、狭窄的空间或各种障碍物中航行,即使失去一条腿,它们也可以移动。然而,有腿的机器人大多移动得很慢。本文研究了一种全方位七自由度六足(即六足)机器人的设计和结构,它配备了在平坦地形上可用的全向车轮(使用两个自由度,一个用于转动车轮,另一个用于车轮本身),以提高行驶速度,以及一个额外的髋关节,使机器人在攀登倾斜地形时更加坚固。全向车轮和额外的髋关节的独特组合使机器人不仅速度更快,而且在崎岖的地形中更坚固,使机器人能够在高达40度的倾斜地形中行驶,并在高达50度的斜坡中保持静态稳定。机器人由地形自适应运动控制器控制,该控制器根据地形条件调整机器人的运动速度和步态。
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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来源期刊
Open Computer Science
Open Computer Science COMPUTER SCIENCE, THEORY & METHODS-
CiteScore
4.00
自引率
0.00%
发文量
24
审稿时长
25 weeks
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