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Adaptive cartesian motion control approach for a surgical robotic cameraman

Víctor F. Muñoz, I. García-Morales, Jesús Morales, Jesús M. Gómez-de-Gabriel, J. J. Fernández-Lozano, Alfonso García-Cerezo

Year
2004
Citations
13

Abstract

This paper presents an adaptive trajectory planning method concerning to the robotic assistant ERM (endoscopic robotic manipulator), designed and developed by the authors for handling the camera in laparoscopic surgery. In order to emulate the human assistant, camera movements must be defined relative to the fulcrum point, where the optic passes through the patient skin and enters inside the abdominal cavity. Since the robot has a passive wrist, and it is not fixed to the operating table, the relative position between the robot camera holder and the insertion point is unknown. In this way, the proposed approach keeps the camera orientation according to the motion references in spite of this uncertainty, and compensates other unexpected disturbances about the relative robot-patient position. This motion planner is based on a schema of a cartesian motion controller with inner joint position-velocity loop, and has been tested by means of experimentation with alive animals.

Keywords

Computer visionArtificial intelligenceRobotCartesian coordinate systemComputer scienceTrajectoryMotion controlMotion (physics)Position (finance)Cartesian coordinate robot

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