Investigation of force sensors for use in bipedal humanoid dynamic gait generation

2014 IEEE Sensors Applications Symposium (SAS) Pub Date : 2014-04-17 DOI:10.1109/SAS.2014.6798963

Rick Pierce, G. S. Gupta

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引用次数: 6

Abstract

A humanoid robot is being developed for implementing and evaluating dynamic gait algorithms. Force sensors are placed on the bottom of the feet of the robot to provide feedback for the control system. The use of resistive force sensors is being investigated as an inexpensive and lightweight alternative to multi-axis force/torque sensors. However, resistive force sensors have a more limited accuracy and response time. Sensors from three companies have been tested: Sensitronic, Interlink, and Inaba Rubber. The sensors were tested with a TA.XTPlus texture analyzer, which is capable of applying specific forces at different rates. The sensors were tested for repeatability of response, drift, and response time to both application and removal of the force. An inverting op-amp is used to convert the force measurement of the sensor to an output voltage, which is read by an oscilloscope. The force measurements from texture analyzer and the voltage output from the oscilloscope are recorded digitally. The data obtained from the measurements is analyzed and the potential uses and limits of the sensors as feedback mechanisms in a bipedal humanoid robot are discussed.

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用于两足仿人动态步态生成的力传感器研究

一种用于实现和评估动态步态算法的类人机器人正在开发中。力传感器被放置在机器人脚的底部，为控制系统提供反馈。目前正在研究使用电阻式力传感器作为多轴力/扭矩传感器的一种廉价、轻便的替代品。然而，电阻式力传感器具有更有限的精度和响应时间。来自三家公司的传感器已经进行了测试:Sensitronic、Interlink和Inaba Rubber。传感器用TA进行了测试。XTPlus纹理分析仪，它能够以不同的速率施加特定的力。对传感器进行了响应、漂移和响应时间的重复性测试，以应用和去除力。反相运算放大器用于将传感器的力测量值转换为输出电压，由示波器读取。纹理分析仪测得的力和示波器输出的电压以数字方式记录下来。分析了测量数据，讨论了传感器作为反馈机构在两足仿人机器人中的潜在用途和局限性。

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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2014 IEEE Sensors Applications Symposium (SAS)

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