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Cutting velocity accuracy as a criterion for comparing robot trajectories and manual movements for medical industry

Andrei Vorotnikov, D. D. Klimov, Е. V. Romash, O. S. Bashevskaya, Yu. V. Poduraev, Ernest A. Bazykyan, Andrey Chunihin

Year
2017
Citations
18
Access
Open access

Abstract

Industrial robots perform technological operations, such as spot and arc welding, machining and laser cutting along different trajectories within their performance characteristics. The evaluation of these characteristics is carried out according to the criteria of the standard ISO 9283. The criteria of this standard are applicable in industrial manufacturing, but not in the medical industry, as they are not developed in the framework of medical tasks. Therefore, it is necessary to evaluate according to criteria built on different principles. In this article, the question of comparative evaluation of trajectories from program movements of a robot and manual movements of a surgeon, arising during the development of robotic medical complexes using industrial robots, is considered. A comparative evaluation is required to prove the expediency of automating medical operations in maxillofacial surgery. This study focuses on the estimation of velocity accuracy of a medical instrument. To obtain the velocity of the medical instrument, coordinates of the trajectory points from the program movements of the robot KUKA LWR4+ and trajectories from the manual movements of a professional surgeon have been measured. The measurement was carried out using a coordinate measuring machine, the laser tracker Leica LTD800. The accuracy estimation was carried out by two criteria: the criterion set out in the ISO 9283 standard, and the developed alternative criterion, the description of which is presented in this article. A quantitative comparative evaluation of the trajectories of a robot and a surgeon was obtained.

Keywords

RobotTrajectoryComputer scienceIndustrial robotSet (abstract data type)MachiningSimulationComputer visionArtificial intelligenceMechanical engineering

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