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Joint-Space Characterization of a Medical Parallel Robot Based on a Dual Quaternion Representation of SE(3)

Iosif Bîrlescu, Manfred Husty, Călin Vaida, Bogdan Gherman, Paul Tucan, Doina Pîslă

Year
2020
Citations
6
Access
Open access

Abstract

The paper proposes a mathematical method for redefining motion parameterizations based on the joint-space representation of parallel robots. The study parameters of SE(3) are used to describe the robot kinematic chains, but, rather than directly analyzing the mobile platform motion, the joint-space of the mechanism is studied by eliminating the Study parameters. From the loop equations of the joint-space characterization, new parameterizations are defined, which enable the placement of a mobile frame on any mechanical element within the parallel robot. A case study is presented for a medical parallel robotic system in which the joint-space characterization is achieved and based on a new defined parameterization, the kinematics for displacement, velocities, and accelerations are studied. A numerical simulation is presented for the derived kinematic models, showing how the medical robot guides the medical tool (ultrasound probe) on an imposed trajectory.

Keywords

KinematicsRepresentation (politics)QuaternionDisplacement (psychology)Computer scienceRobotRobot kinematicsTrajectoryMotion (physics)Parallel manipulator

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