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作 者:都悦来 史丽萍[1] 李桂英[1] 庞桂云[1] 王立晶[1]
出 处:《纳米技术与精密工程》2017年第1期61-66,共6页Nanotechnology and Precision Engineering
基 金:黑龙江省教育厅科学技术研究资助项目(12541624)
摘 要:针对动态测量关节角度的需要,本文设计了两种手指运动姿态监测方法.第1种方法是通过基于MEMS技术的三轴加速度计ADXL330对近侧指间关节的运动姿态进行监测.ADXL330是通过每一敏感轴所感知的重力加速度分量来实现这一功能.为验证该方法的可行性,设计了步进电机控制的能在竖直平面内转动的装置.对比传感器的输出和电机转动的角度,结果表明:动态条件下,其绝对误差为1°~3°,相对误差为2%~6%.第2种方法是通过弯曲传感器在弯曲时输出电阻的变化来监测手指的运动姿态.实验结果表明:在一定的允许误差范围内,三轴加速度计ADXL330和弯曲传感器都能用于监测手指运动姿态.In order to dynamically measure the joint angle, two detection methods for finger motion were designed. The first method uses three-axis accelerometer ADXL330 based on MEMS technology to monitor the proximal interphalangeal joint (PIP joint) motion. The accelerometer ADXL330 realizes this function through the gravitational acceleration component of every sensitive axis. To verify the feasibility of the proposed scheme, a rotating device was designed which could be controlled by the stepper motor and could rotate in the vertical plane. Considering the output voltage of the aecelerometer and the rotating angle of the stepper motor, the results show that the absolute error and relative error mainly ranges between 1°-3° and 2% -6% , respectively, under dynamic conditions. The second method uses a flex sensor to monitor finger motion attitude. The sensor works under the principle that it produces output resistance change when bent. The experimental results show that both the three-axis accelerometer ADXL330 and the flex sensor can be applied to monitor the motion attitude of human fingers within a range of errors.
分 类 号:TP212.9[自动化与计算机技术—检测技术与自动化装置]
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