Research on Bionic Climbing Robot Based on Gait Analysis

Transactions on Engineering and Technology Research Pub Date : 2023-12-11 DOI:10.62051/8z2y6j26
Jiayi Li
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Abstract

In order to replace humans performing hazardous tasks in complex high-altitude environments, we have designed a two-armed modular bionic robot with clawing, climbing and mobility capabilities for high-altitude tasks in agriculture, forestry and construction. In this paper, a five-degree-of-freedom climbing modular robot with the ability to maneuver between poles in space is presented and analyzed. Three types of climbing gaits is designed and compared in the ADAMS simulation environment based on the torques required by the main joints and the energy consumed by the robot to climb the poles in different directions. The simulation results are the basis for planning the gait of the robot during climbing.
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基于步态分析的仿生攀爬机器人研究
为了替代人类在复杂的高海拔环境中执行危险任务,我们设计了一种双臂模块化仿生机器人,具有抓取、攀爬和移动能力,可用于农业、林业和建筑业的高海拔任务。本文介绍并分析了一种具有五自由度攀爬能力的模块化机器人,该机器人能够在空间中的两极之间移动。在 ADAMS 仿真环境中,根据主要关节所需的扭矩和机器人在不同方向攀爬电线杆所消耗的能量,设计并比较了三种攀爬步态。模拟结果是规划机器人攀爬步态的基础。
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Transactions on Engineering and Technology Research
Transactions on Engineering and Technology Research
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