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6-Axis Hybrid Sensing and Estimation of Tip Forces/Torques on a Hyper-Redundant Robotic Surgical Instrument

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dc.contributor.authorYilmaz, Nural
dc.contributor.authorBazman, Merve
dc.contributor.authorAlassi, Alaa
dc.contributor.authorGür, M. Berke
dc.contributor.authorTümerdem, Uğur
dc.contributor.institutionYilmaz, Nural, Department of Mechanical Engineering, Marmara Üniversitesi, Istanbul, Turkey
dc.contributor.institutionBazman, Merve, Department of Mechanical Engineering, Marmara Üniversitesi, Istanbul, Turkey
dc.contributor.institutionAlassi, Alaa, Mechatronics Engineering Department Besiktas, Bahçeşehir Üniversitesi, Istanbul, Turkey
dc.contributor.institutionGür, M. Berke, Mechatronics Engineering Department Besiktas, Bahçeşehir Üniversitesi, Istanbul, Turkey
dc.contributor.institutionTümerdem, Uğur, Department of Mechanical Engineering, Marmara Üniversitesi, Istanbul, Turkey
dc.date.accessioned2025-10-05T15:55:15Z
dc.date.issued2019
dc.description.abstractIn this paper a hybrid method for estimation of 6 degree-of-freedom (DOF) laparoscopic instrument tip force/torques in robotic-assisted minimally invasive surgery systems is proposed. The method is implemented on an in-house developed hyper-redundant (11-DOF) surgical robotic forceps prototype. This surgical robot is composed of two modules with a 7-DOF Kuka IIWA manipulator for performing 4-DOF Remote Centre of Motion (RCM) about the trocar and an articulated 4-DOF parallel wrist/gripper mechanism attached to the distal end of the Kuka robot for intra-corporeal manipulation. The hybrid sensor-based/sensorless method fuses torque estimates from the parallel wrist mechanism with measurements from a force sensor attached between the wrist base and the Kuka tool frame. With this approach it is possible to obtain force/torque estimates on all Cartesian axes (x, y, z, yaw, pitch, roll) of the forceps tip. The prototype is one of the first systems designed for robotic surgery that can achieve accurate force estimation on all 6 axes of the instrument tip. Experiment validation results with a force sensor verify the efficacy of the proposed method. © 2020 Elsevier B.V., All rights reserved.
dc.identifier.conferenceName2019 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2019
dc.identifier.conferencePlaceMacau
dc.identifier.doi10.1109/IROS40897.2019.8967835
dc.identifier.endpage2997
dc.identifier.issn21530866
dc.identifier.issn21530858
dc.identifier.scopus2-s2.0-85081156725
dc.identifier.startpage2990
dc.identifier.urihttps://doi.org/10.1109/IROS40897.2019.8967835
dc.identifier.urihttps://hdl.handle.net/20.500.14719/10909
dc.language.isoen
dc.publisherInstitute of Electrical and Electronics Engineers Inc.
dc.relation.sourceIEEE International Conference on Intelligent Robots and Systems
dc.subject.authorkeywordsDegrees Of Freedom (mechanics)
dc.subject.authorkeywordsIntelligent Robots
dc.subject.authorkeywordsManipulators
dc.subject.authorkeywordsRobotics
dc.subject.authorkeywordsSurgery
dc.subject.authorkeywordsSurgical Equipment
dc.subject.authorkeywords6 Degree Of Freedom
dc.subject.authorkeywordsExperiment Validations
dc.subject.authorkeywordsForce Estimation
dc.subject.authorkeywordsLaparoscopic Instrument
dc.subject.authorkeywordsMinimally Invasive Surgery
dc.subject.authorkeywordsRemote Centre Of Motions
dc.subject.authorkeywordsSurgical Instrument
dc.subject.authorkeywordsSurgical Robotics
dc.subject.authorkeywordsRobotic Surgery
dc.subject.indexkeywordsDegrees of freedom (mechanics)
dc.subject.indexkeywordsIntelligent robots
dc.subject.indexkeywordsManipulators
dc.subject.indexkeywordsRobotics
dc.subject.indexkeywordsSurgery
dc.subject.indexkeywordsSurgical equipment
dc.subject.indexkeywords6 degree of freedom
dc.subject.indexkeywordsExperiment validations
dc.subject.indexkeywordsForce estimation
dc.subject.indexkeywordsLaparoscopic instrument
dc.subject.indexkeywordsMinimally invasive surgery
dc.subject.indexkeywordsRemote centre of motions
dc.subject.indexkeywordsSurgical instrument
dc.subject.indexkeywordsSurgical robotics
dc.subject.indexkeywordsRobotic surgery
dc.title6-Axis Hybrid Sensing and Estimation of Tip Forces/Torques on a Hyper-Redundant Robotic Surgical Instrument
dc.typeConference Paper
dcterms.referencesKehoe, Ben, Autonomous multilateral debridement with the Raven surgical robot, Proceedings - IEEE International Conference on Robotics and Automation, pp. 1432-1439, (2014), Tavakoli, Mahdi, Methods and mechanisms for contact feedback in a robot-assisted minimally invasive environment, Surgical Endoscopy, 20, 10, pp. 1570-1579, (2006), Haidegger, Tamás P., Force sensing and force control for surgical robots, IFAC-PapersOnLine, 7, PART 1, pp. 401-406, (2009), Okamura, Allison M., Methods for haptic feedback in teleoperated robot-assisted surgery, Industrial Robot, 31, 6, pp. 499-508, (2004), Shimachi, Shigeyuki, Measurement of force acting on surgical instrument for force-feedback to master robot console, International Congress Series, 1256, C, pp. 538-546, (2003), Willaert, Bert, Design and in vivo validation of a force-measuring manipulator for MIS providing synchronized video, motion and force data, Proceedings - IEEE International Conference on Robotics and Automation, pp. 4857-4862, (2013), Schwalb, Willem, A force-sensing surgical tool with a proximally located force/torque sensor, International Journal of Medical Robotics and Computer Assisted Surgery, 13, 1, (2017), Kim, Uikyum Kyeom, Force Sensor Integrated Surgical Forceps for Minimally Invasive Robotic Surgery, IEEE Transactions on Robotics, 31, 5, pp. 1214-1224, (2015), Hagn, Ulrich A., DLR MiroSurge: A versatile system for research in endoscopic telesurgery, International Journal of Computer Assisted Radiology and Surgery, 5, 2, pp. 183-193, (2010), Madhani, Akhil J., Black Falcon: A teleoperated surgical instrument for minimally invasive surgery, IEEE International Conference on Intelligent Robots and Systems, 2, pp. 936-944, (1998)
dspace.entity.typePublication
local.indexed.atScopus
person.identifier.scopus-author-id57202578580
person.identifier.scopus-author-id57202577058
person.identifier.scopus-author-id57203981537
person.identifier.scopus-author-id18036938000
person.identifier.scopus-author-id24823442900

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