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Design and realization of grasper-integrated force sensor for minimally invasive robotic surgery

Uikyum Kim, Dong‐Hyuk Lee, Hyungpil Moon, Ja Choon Koo, Hyouk Ryeol Choi

Year
2014
Citations
23

Abstract

This paper presents a grasper-integrated force sensor that provides the capability of measuring dual axial forces at the tip of surgical robot for minimally invasive surgery (MIS). On the sensorized forceps, the combination of dual axial forces measured at each side of grasper presents three axial pulling and single axial grasping force sensing, which provide force feedback control using haptic device. It consists of simple structure of triangular prism shape and two capacitive-type pressure sensor cells based on elastomeric polymer which provides the information on normal and shear forces. The sensing principle is to compare the difference between responses of two pressure sensors when the surface of the sensor contacts to the tissue. A sensorized forceps is fabricated by employing the molding method and electronics for signal processing is embedded. Finally, experimental evaluations are performed and its feasibility is validated.

Keywords

Capacitive sensingHaptic technologyForcepsPressure sensorInvasive surgeryComputer scienceAcousticsRobotBiomedical engineeringEngineering

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