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Design of a multi-DOF cable-driven mechanism of a miniature serial manipulator for robot-assisted minimally invasive surgery

Antonia Tzemanaki, Łukasz Frącczak, David Gillatt, Anthony Koupparis, Chris Melhuish, Raj Persad, Edward Rowe, Tony Pipe, Sanja Dogramadzi

Year
2016
Citations
14

Abstract

While multi-fingered robotic hands have been developed for decades, none has been used for surgical operations. μAngelo is an anthropomorphic master-slave system for teleoperated robot-assisted surgery. As part of this system, this paper focuses on its slave instrument, a miniature three-digit hand. The design of the mechanism of such a manipulator poses a challenge due to the required miniaturization and the many active degrees of freedom. As the instrument has a human-centered design, its relation to the human hand is discussed. Two ways of routing its cable-driven mechanism are investigated and the method of deriving the input-output functions that drive the mechanism is presented.

Keywords

TeleoperationMechanism (biology)Manipulator (device)RobotSurgical robotInvasive surgerySimulationControl engineeringMiniaturizationComputer science

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