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A Variable-Impedance Tactile Sensor With Online Performance Tuning for Tissue Hardness Palpation in Robot-Assisted Minimally Invasive Surgery

Feng Ju, Yahui Yun, Zhao Zhang, Yaoyao Wang, Yaming Wang, Lei Zhang, Bai Chen

Year
2018
Citations
5

Abstract

This paper presents a novel tactile sensor whose sensing performance (sensitivity, range, etc.) can be tuned online by varying its mechanical impedance with a double-cantilever structure. Therefore, it can solve the problems of narrow sensing range and non-optimal sensitivity faced by existing dynamic tactile sensors. The sensor is driven by a piezoelectric patch which acts simultaneously as both the actuator to generate vibration and the sensor to detect resonance from its electrical impedance. Its basic working principle and the variable-impedance method for performance tuning are explained mathematically and verified by numerical simulations and experimental studies. The proposed variable-impedance methodology can inspire the designs of a new class of tactile sensors for applications in robotics, biomedical engineering, aerospace, etc.

Keywords

Tactile sensorElectrical impedanceRoboticsSensitivity (control systems)Mechanical impedanceActuatorComputer scienceCantileverRobotAcoustics

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