Development of an omni‐directional mobile robot using traveling waves based on snail locomotion

移动机器人 机器人 行波 机器人运动 工程类 机制(生物学) 悬链线 模拟 计算机科学 人工智能 机器人控制 物理 数学 结构工程 量子力学 数学分析
作者
Taro Nakamura,Kuniaki Satoh
出处
期刊:Industrial Robot-an International Journal [Emerald Publishing Limited]
卷期号:35 (3): 206-210 被引量:14
标识
DOI:10.1108/01439910810868516
摘要

Purpose The snail moves by propagating traveling waves from tail to head. If it is possible to propagate a traveling wave in many directions, an omni‐directional mobile robot could be realized. The purpose of this paper is to develop an omni‐directional mobile robot using the locomotion mechanism of the snail and to study the basic properties of the robot. Design/methodology/approach A unit for mobile robot was developed to generate the traveling wave based on the snail. The omni‐directional mobile robot is composed of eight units arranged in a circular shape and each abutting unit is connected by a spring. The robot generates a traveling wave by elongation and contraction of the units and realizes an omni‐directional locomotion. Findings It was confirmed that the robot moves using the traveling wave locomotion. Furthermore, the locomotion experiment confirmed that the robot moved in the expected direction with reasonable accuracy. Originality/value This paper proposes a new omni‐directional mobile mechanism using traveling wave based on a snail locomotion. Since the locomotion mechanism of the snail involves moving a larger area than is the case with other creatures, it is able to move not only on irregular ground such as swamps, but also on walls and ceilings. Hence, it is thought that this robot could be applied to the inspection of walls.

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