Design and Fabrication of an Arduino-Based Self-Balancing Walking Robot’s Lower Limb

2021 IEEE 13th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM) Pub Date : 2021-11-28 DOI:10.1109/HNICEM54116.2021.9731968

Dave Jordan S. Cruz, John Luke M. Cruz, Laineer Aiken A. Dimaapi, Rachelle V. Galicia, E. B. Ang, J. Villaverde, J. R. Cunado

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引用次数: 1

Abstract

The study is focused on the design and fabrication of a robot’s lower limb, taking into consideration different factors including the effect of center of mass (COM) and joint angular movements to achieve human walking pattern. The bipedal robot can balance and withstand a specific amount of force at rest and in motion while walking on an even straight path. The researchers used Arduino IDE in programming the robot to make it balanced at rest and stably walk while in motion. The robot’s ability to withstand and self-balance at an external force of not more than twenty millinewton while at rest and in motion was achieved in this study. The researchers also compared the motion of the robot to the characteristics of human walking pattern based on its stability and accuracy in terms of step length, center of mass, center of pressure and joint angular movements. The robot was able to produce data about its movement based on the accuracy of joint angles, step length, and data records of its COM.

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基于arduino的自平衡行走机器人下肢的设计与制造

研究了机器人下肢的设计和制造，考虑了质心和关节角运动等不同因素的影响，实现了人的行走方式。这款双足机器人可以在静止和运动时平衡并承受一定的力，同时在一条平坦的直线上行走。研究人员使用Arduino IDE对机器人进行编程，使其在休息时保持平衡，在运动时稳定行走。在本研究中，机器人在静止和运动状态下承受不超过2000万牛顿的外力并实现自平衡的能力。研究人员还将机器人在步长、质心、压力中心和关节角运动方面的稳定性和准确性与人类行走模式的特征进行了比较。机器人能够根据关节角度、步长和COM的数据记录的准确性产生关于其运动的数据。

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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2021 IEEE 13th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM)

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