Sensitivity adjustment based on resonant frequency change for tactile sensing

机译：基于触觉传感的谐振频率变化的灵敏度调整

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We propose a novel tactile sensor, of which sensitivity and sensing range is adjustable. This sensor is a mechanical resonator sensor using a piezoelectric bimorph which measures elastic deformation of media by external force. The sensor is robust and has self-sensing capability. We derived the relationship between sensor output and spring constant at each vibration mode by the piezoelectric analysis and vibration analysis. The validity of sensor was demonstrated by experiment. As an application, a robot fingertip with tactile sensor was fabricated and evaluated.

机译：我们提出了一种新颖的触觉传感器，其中灵敏度和传感范围是可调节的。该传感器是使用压电双芯片的机械谐振器传感器，压电双芯片通过外力测量介质的弹性变形。传感器具有稳健性，具有自感的能力。通过压电分析和振动分析，我们通过压电分析和振动分析来源于每个振动模式下传感器输出和弹簧常数之间的关系。通过实验证明了传感器的有效性。作为应用，制造和评估了具有触觉传感器的机器人指尖。

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《International Symposium on Micro-NanoMechatronics and Human Science;Symposium Micro-NanoMechatronics for an Information-Based Society 》|2004年||共6页
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Motoo K.; Arai F.; Yamada Y.; Matsuno T.; Fukuda T.; Matsuura H.;
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中图分类 TH15-53;
关键词
tactile sensors; piezoelectric devices; elastic deformation; vibrations; piezoelectricity; robots; sensitivity adjustment; resonant frequency change; tactile sensing; mechanical resonator sensor; piezoelectric bimorph; elastic deformation; spring constant; vibration mode; piezoelectric analysis; vibration analysis; robot fingertip;

机译：触觉传感器;压电装置;弹性变形;振动;压电;敏感性调整;谐振频率变化;触觉感应;机械谐振器传感器;压电双芯片;弹性变形;弹性变形;压电分析;振动分析;振动分析;机器人指尖;振动分析;

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机译：触觉模态：触觉灵敏度和人体触觉界面的回顾

Sensitivity adjustment based on resonant frequency change for tactile sensing

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