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

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Publication | Open Access

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

DOI Full Paper Access

14

Citations

12

References

2016

Year

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

Unknown Venue

Robot KinematicsRobotic SystemsEngineeringDexterous ManipulationMinimally Invasive ProcedureMechanical EngineeringMechanics In MedicineObject ManipulationSurgeryInvasive SurgerySlave InstrumentMulti-fingered Robotic HandsMinimally Invasive SurgeryKinematicsRequired MiniaturizationMulti-dof Cable-driven MechanismComputer-assisted SurgeryMechanical DesignRobotic TechnologyMedicineMechatronicsHand SurgeryRobot DexterityMedical RobotRobotic SurgeryMechanical SystemsMiniature Serial ManipulatorRobot-assisted SurgeryRobotics

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.

References

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