A Reliable Low-Cost Foot Contact Sensor for Legged Robots

2020 17th International Conference on Ubiquitous Robots (UR) Pub Date : 2020-06-01 DOI:10.1109/UR49135.2020.9144878

Hyunwoo Nam, Qing Xu, D. Hong

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引用次数: 1

Abstract

In an unstructured environment, fast walking legged robots can easily damage itself or the crowd due to slips or missing desired contacts. Therefore, it is important to sense ground contacts for legged robots. This paper presents a low-cost, lightweight, simple and robust foot contact sensor designed for legged robots with point feet. First, the mechanical design of the foot is proposed. The foot detects contact as it presses against the ground through the deformation of a layer of polyurethane rubber, which allows the compressive displacement of the contact foot pad to trigger the enclosed sensor. This sensor is a binary contact sensor using pushbutton switches. The total weight of the foot contact sensor is 82g, and the cost of manufacturing one is less than $10 USD. Next, the effectiveness of the developed foot is confirmed through several experiments. The angle between the center axis of the foot and the ground is referred to as the contact angle in this paper. The foot contact sensor can reliably detect ground contact over contact angles between 30° to 150°. This prototype sensor can also withstand contact forces of over 80N for more than 10,000 steps.

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一种可靠、低成本的足部接触传感器

在非结构化环境中，快速行走的有腿机器人很容易因滑倒或缺少所需的接触而损坏自身或人群。因此，对有腿机器人的地面接触感测是非常重要的。提出了一种低成本、轻量化、简单耐用的足部接触传感器。首先，提出了足部的机械设计。脚通过一层聚氨酯橡胶的变形来检测与地面的接触，这使得接触脚垫的压缩位移触发封闭的传感器。该传感器是一种使用按钮开关的二进制接触传感器。脚触传感器的总重量为82g，制造成本不到10美元。其次，通过多次实验验证了开发脚的有效性。脚部中轴线与地面之间的夹角在本文中称为接触角。脚触传感器可以在30°到150°的接触角范围内可靠地检测地面接触。这种原型传感器还可以承受超过80N的接触力，超过10,000步。

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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2020 17th International Conference on Ubiquitous Robots (UR)

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