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SURGICAL

Dexterous and back-drivable parallel robotic forceps wrist for robotic surgery

Merve Bazman, Nural Yilmaz, Ugur Tümerdem

发表年份
2018
引用次数
12

摘要

This paper describes the design, kinematic analysis, control architecture and experimental validation of a novel 3- degree-of-freedom (DOF) robotic surgical instrument for use in minimally invasive surgery. This instrument contains a wrist mechanism that can enter the body through incisions of about 18 mm and that can be actuated extra-corporally with rigid push-pull rods passing through linear bearings in the instrument shaft. The rigid transmission and parallel architecture of this mechanism also makes it back-drivable and suitable for force estimation and control. With this instrument, it is possible to achieve and even surpass the 2 DOF bending motion that the human wrist is capable of (90-degree pitch-flexion/extension and yaw-radial/ulnar deviation) and the 1 DOF translation motion in the forward/backward directions. A prototype of the proposed design has been manufactured and assembled and has been controlled with joint space PID controllers with disturbance observers. The results of position control and back-drivability experiments on the system validate our proposal.

关键词

KinematicsMechanism (biology)Computer scienceForcepsSimulationWristSurgical instrumentControl theory (sociology)EngineeringArtificial intelligence

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