System and method for providing substantially stable control of a surgical tool
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-003/0481
G06F-003/0484
G06F-003/01
A61B-034/20
A61B-034/10
출원번호
US-0451257
(2017-03-06)
등록번호
US-9921712
(2018-03-20)
발명자
/ 주소
Lightcap, Christopher Alan
Kang, Hyosig
Bowling, David Gene
Stuart, John Michael
Culp, Jerry A.
Malackowski, Donald W.
Moctezuma de la Barrera, Jose Luis
Roessler, Patrick
Beer, Joel N.
출원인 / 주소
MAKO Surgical Corp.
대리인 / 주소
Foley & Lardner LLP
인용정보
피인용 횟수 :
0인용 특허 :
305
초록▼
A system for providing substantially stable control of a surgical instrument is provided. The system includes a surgical manipulator for manipulating the surgical instrument and at least one computer configured to identify a first subset and a second subset of interaction geometric primitives associ
A system for providing substantially stable control of a surgical instrument is provided. The system includes a surgical manipulator for manipulating the surgical instrument and at least one computer configured to identify a first subset and a second subset of interaction geometric primitives associated with a virtual tool; determine, based on the first subset, control forces in a first subspace; and determine based on the second subset, control forces in a second subspace having at least one additional dimension. Control forces in the additional dimension are only determined based on the second subset of primitives, which is different than the first subset of primitives. The computer is further configured to determine a torque to constrain an orientation of the surgical instrument, wherein determining the torque comprises defining a virtual tool normal and a control plane normal and using the virtual tool normal and control plane normal to calculate the torque.
대표청구항▼
1. A system for providing substantially stable control of a surgical instrument, comprising: a surgical manipulator for manipulating the surgical instrument; andat least one computer configured to:identify a first subset and a second subset of interaction geometric primitives associated with a virtu
1. A system for providing substantially stable control of a surgical instrument, comprising: a surgical manipulator for manipulating the surgical instrument; andat least one computer configured to:identify a first subset and a second subset of interaction geometric primitives associated with a virtual tool representing the surgical instrument;determine, based on the first subset, control forces in a first subspace;determine based on the second subset, control forces in a second subspace having at least one additional dimension to first subspace; wherein control forces in the additional dimension are only determined based on the second subset of interaction geometric primitives, which is different than the first subset of interaction geometric primitives; anddetermine a torque to constrain an orientation of the surgical instrument, wherein determining the torque comprises defining a virtual tool normal and a control plane normal and using the virtual tool normal and control plane normal to calculate the torque. 2. The system of claim 1, wherein the first subspace has only one less dimension than the second subspace. 3. The system of claim 1, wherein the first subspace is a two-dimensional subspace of three-dimensional space R3, and the second subspace is a three-dimensional subspace of three-dimensional space R3. 4. The system of claim 1, wherein the at least one computer is configured such that a total interaction force is determined by summing at least the control forces in the first subspace and the control forces in the second subspace. 5. The system of claim 1, wherein the interaction geometric primitives are at least one of a point, line, line segment, plane, circle, ellipse, triangle, polygon and curved arc segment. 6. The system of claim 1, wherein the first subset includes a plurality of interaction geometric primitives. 7. The system of claim 6, wherein the second subset includes only one interaction geometric primitive. 8. The system of claim 7, wherein the interaction geometric primitive of the second subset is disposed between interaction geometric primitives of the first subset. 9. The system of claim 1, wherein the first subset constitutes a non-linear boundary of the virtual tool. 10. The system of claim 1, wherein the at least one computer is configured to determine a torque based at least in part on an orientation of the virtual tool. 11. The system of claim 1, wherein the computer is further configured to selectively operate the surgical manipulator in a first operating mode and a second operating mode. 12. The system of claim 11, wherein the first operating mode is a manual mode and the second operating mode is a semi-autonomous mode. 13. A method for providing substantially stable control of a surgical instrument, comprising: identifying a first subset and a second subset of interaction geometric primitives associated with a virtual tool representing a surgical instrument:determining based on the first subset, by at least one computer, control forces in a first subspace;determining based on the second subset, by at least one computer, control forces in a second subspace having at least one additional dimension to the first subspace;wherein control forces in the additional dimension are only determined based on the second subset of interaction geometric primitives, which is different than the first subset of interaction geometric primitives; anddetermining a torque to constrain an orientation of the surgical instrument, wherein determining the torque comprises defining a virtual tool normal and a control plane normal and using the virtual tool normal and control plane normal to calculate the torque. 14. The method of claim 13, wherein the first subspace has only one less dimension than the second subspace. 15. The method of claim 13, wherein the first subspace is a two-dimensional subspace of three-dimensional space R3, and the second subspace is a three-dimensional subspace of three-dimensional space R3. 16. The method of claim 13, further comprising: determining, by at least one computer, a total interaction force by summing at least the control forces in the first subspace and the control forces in the second subspace. 17. The method of claim 13, wherein the interaction geometric primitives are at least one of a point, line, line segment, plane, circle, ellipse, triangle, polygon and curved arc segment. 18. The method of claim 13, wherein the first subset includes a plurality of interaction geometric primitives. 19. The method of claim 13, wherein the second subset includes only one interaction geometric primitive. 20. The method of claim 19, wherein the interaction geometric primitive of the second subset is disposed between interaction geometric primitives of the first subset. 21. The method of claim 13, wherein the first subset constitutes a non-linear boundary of the virtual tool. 22. The method of claim 13, further comprising: determining a torque based at least in part on an orientation of the virtual tool.
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이 특허에 인용된 특허 (305)
Goodwin, William Alexander; Handley, Joshua Eric; Winston, Philip Brown, 3-D selection and manipulation with a multiple dimension haptic interface.
DiGioia ; III Anthony M. ; Simon David A. ; Jaramaz Branislav ; Blackwell Michael K. ; Morgan Frederick M. ; O'Toole Robert V. ; Kanade Takeo, Apparatus and method facilitating the implantation of artificial components in joints.
Wodicka George R. (West Lafayette IN) Mansfield Jeffrey P. (Lafayette IN) Voorhees William D. (West Lafayette IN), Apparatus and method for acoustically guiding, positioning, and monitoring a tube within a body.
DiGioia ; III Anthony M. ; Simon David A. ; Jaramaz Branislav ; Blackwell Michael K. ; Morgan Frederick M. ; O'Toole Robert V. ; Kanade Takeo, Apparatus and method for facilitating the implantation of artificial components in joints.
DiGioia III Anthony M. ; Simon David A. ; Jaramaz Branislav ; Blackwell Michael K. ; Morgan Frederick M. ; O'Toole Robert V. ; Kanade Takeo, Apparatus and method for facilitating the implantation of artificial components in joints.
Mark Peter Heilbrun ; Paul McDonald ; J. Clayton Wiker ; Spencer Koehler ; William Peters, Apparatus and method for photogrammetric surgical localization.
Madhani Akhil J. ; Salisbury J. Kenneth, Articulated surgical instrument for performing minimally invasive surgery with enhanced dexterity and sensitivity.
Yeh-Liang Hsu TW; Shih-Tseng Lee TW; Chong-Fai Wang TW; Jia-Wen Chen TW; Hao-Wei Lin TW; Tsung-Cheng Huang TW, Automatic bone drilling apparatus for surgery operation.
Morel Guillaume,FRX ; Dubowsky Steven, Base force/torque sensor apparatus for the precise control of manipulators with joint friction and a method of use ther.
Ulrich Daniel J. (Cincinnati OH) Weismiller Matthew W. (Batesville IN) Scott Tom (Indianapolis IN) Jennings Bob (Annandale VA) Myers Julie (Indianapolis IN) Novak Joe (Batesville IN), Bed status information system for hospital beds.
DiGioia ; III Anthony M. ; Simon David A. ; Jaramaz Branislav ; Blackwell Michael K. ; Morgan Frederick M. ; O'Toole Robert V. ; Kanade Takeo, Computer-assisted surgery planner and intra-operative guidance system.
Delp Scott L. (2728 Woodbine Evanston IL 60201) Loan J. Peter (3233 Harrison St. Evanston IL 60201) Robinson Craig B. (3307 N. Kenmore Ave. ; Apt. Garden-Front Chicago IL 60657) Wong Arthur Y. (8261/, Computer-assisted surgical system.
Malackowski,Don; Dozeman,Michael D.; Hoekstra,Paul M.; Wildgen,Michael R., Control console to which powered surgical handpieces are connected, the console configured to simultaneously energize more than one and less than all of the handpieces.
Ohm Timothy ; Boswell Curtis ; Das Hari ; Paljug Eric ; Rodriguez Guillermo ; Schenker Paul ; Lee Sukhan ; Barlow Ed ; Charles Steve, Decoupled six degree-of-freedom robot manipulator.
Ohm Timothy ; Das Hari ; Guillermo Rodriguez ; Boswell Curtis ; Paljug Eric ; Schenker Paul ; Barlow Ed ; Steve Charles, Decoupled six degree-of-freedom teleoperated robot system.
Mushabac David R. (919 Ocean Ave. Brooklyn NY 11226), Device for obtaining three dimensional contour data and for operating on a patient and related method.
Salisbury, Jr., J. Kenneth; Niemeyer, Gunter D.; Younge, Robert G.; Guthart, Gary S.; Mintz, David S.; Cooper, Thomas G., Devices and methods for presenting and regulating auxiliary information on an image display of a telesurgical system to assist an operator in performing a surgical procedure.
Braun, Adam C.; Beamer, Jonathan L.; Rosenberg, Louis B.; Chang, Dean C., Force feedback system including multi-tasking graphical host environment and interface device.
Madhani Akhil J. ; Salisbury J. Kenneth, Force-reflecting surgical instrument and positioning mechanism for performing minimally invasive surgery with enhanced.
Bevirt JoeBen ; Moore David F. ; Norwood John Q. ; Rosenberg Louis B. ; Levin Mike D., Hemispherical, high bandwidth mechanical interface for computer systems.
Glassman Edward (New York NY) Hanson William A. (Mountain View CA) Kazanides Peter (Davis CA) Mittelstadt Brent D. (Placerville CA) Musits Bela L. (Hopewell Junction NY) Paul Howard A. (Loomis CA) Ta, Image-directed robotic system for precise robotic surgery including redundant consistency checking.
Glassman Edward (New York NY) Hanson William A. (Mountain View CA) Kazanzides Peter (Davis CA) Mittelstadt Brent D. (Placerville CA) Musits Bela L. (Hopewell Junction NY) Paul Howard A. (Loomis CA) T, Image-directed robotic system for precise robotic surgery including redundant consistency checking.
Glassman Edward (New York NY) Hanson William A. (Mountain View CA) Kazanzides Peter (Davis CA) Mittelstadt Brent D. (Placerville CA) Musits Bela L. (Hopewell Junction NY) Paul Howard A. (Loomis CA) T, Image-directed robotic system for precise robotic surgery including redundant consistency checking.
Marquart, Joel; Hand, Randall; Quaid, III, Arthur E.; Arata, Louis K.; Abovitz, Rony A.; Sati, Marwan, Interactive computer-assisted surgery system and method.
H. Dean McGee ; Eric C. Lee ; Robert V. Bauer ; Peter J. Swanson ; Sai-Kai Cheng ; Chi-Keng Tsai ; Yi Sun, Lead-through teach handle assembly and method of teaching a robot assembly.
Skaar Steven B. ; Seelinger Michael J. ; Robinson Matthew L. ; Gonzalez Galvan Emilio J.,MXX, Means and method of robot control relative to an arbitrary surface using camera-space manipulation.
Hui Raymond Chung-Ying,CAX ; Hayward Vincent,CAX ; Ouellet Alain Gerard,CAX ; Peruzzini Walter,CAX ; Gregorio Pedro,CAX ; Wang Andrew,CAX ; Vukovich George,CAX, Mechanism for control of position and orientation in three dimensions.
Thilaka S. Sumanaweera ; John I. Jackson ; Michael G. Curley ; Randall Schlesinger ; John A. Hossack ; Linyong Pang, Medical diagnostic ultrasound system and method for mapping surface data for three dimensional imaging.
Kami Kuniaki (Hachioji JPX) Adachi Hideyuki (Hachioji JPX) Umeyama Koichi (Kasukabe JPX) Kosaka Yoshihiro (Hachioji JPX) Yamaguchi Seiji (Hachioji JPX) Fuse Eiichi (Hachioji JPX) Sato Michio (Hino JP, Medical system for reproducing a state of contact of the treatment section in the operation unit.
Pelzer, Martin; Neubrandt, Walter; Luber, Joachim; Mackevics, Arvids, Medical therapeutic and/or diagnostic apparatus having a position detecting device.
Braun, Adam C.; Tierling, Kollin M.; Martin, Kenneth M.; Schena, Bruce M., Method and apparatus for compensating for position slip in interface devices.
Craig B. Zilles ; J. Kenneth Salisbury, Jr. ; Thomas H. Massie ; David Lawrence Brock ; Mandayam A. Srinivasan ; Hugh B. Morgenbesser, Method and apparatus for determining forces to be applied to a user through a haptic interface.
Zilles Craig B. ; Salisbury ; Jr. J. Kenneth ; Massie Thomas H. ; Brock David Lawrence ; Srinivasan Mandayam A. ; Morgenbesser Hugh B., Method and apparatus for determining forces to be applied to a user through a haptic interface.
Zilles,Craig B.; Salisbury, Jr.,J. Kenneth; Massie,Thomas H.; Brock,David Lawrence; Srinivasan,Mandayam A.; Morgenbesser,Hugh B., Method and apparatus for determining forces to be applied to a user through a haptic interface.
Tarr Christopher ; Salisbury ; Jr. J. Kenneth ; Massie Thomas Harold ; Aviles Walter A., Method and apparatus for generating and interfacing with a haptic virtual reality environment.
Tarr, Christopher; Salisbury, Jr., J. Kenneth; Massie, Thomas Harold; Aviles, Walter A., Method and apparatus for generating and interfacing with a haptic virtual reality environment.
Tarr,Christopher; Salisbury, Jr.,Kenneth; Massie,Thomas Harold; Aviles,Walter A., Method and apparatus for generating and interfacing with a haptic virtual reality environment.
Wang Yulun ; Uecker Darrin R. ; Jordan Charles S. ; Wright James W. ; Laby Keith Phillip ; Wilson Jeff D., Method and apparatus for performing minimally invasive cardiac procedures.
Wang Yulun ; Uecker Darrin R. ; Laby Keith Phillip ; Wilson Jeff ; Jordan Steve ; Wright James, Method and apparatus for performing minimally invasive cardiac procedures.
Wang Yulun ; Uecker Darrin R. ; Laby Keith P. ; Wilson Jeff D. ; Jordan Charles S. ; Ghodoussi Modjtaba ; Wright James W., Method and apparatus for performing minimally invasive surgical procedures.
Wang, Yulun; Uecker, Darrin; Laby, Keith P.; Wilson, Jeff D.; Jordan, Charles S.; Wright, James W.; Ghodoussi, Modjtaba, Method and apparatus for performing minimally invasive surgical procedures.
Yulun Wang ; Darrin Uecker ; Keith Laby ; Jeff Wilson ; Charles Jordan ; James Wright ; Modjtaba Ghodoussi, Method and apparatus for performing minimally invasive surgical procedures.
Bevirt,JoeBen; Moore,David F.; Norwood,John Q.; Rosenberg,Louis B.; Levin,Mike D., Method and apparatus for providing an interface mechanism for a computer simulation.
Jacobus Charles J. ; Griffin Jennifer Lynn, Method and system for simulating medical procedures including virtual reality and control method and system for use the.
Brent D. Mittelstadt, Method for determining the location and orientation of a bone for computer-assisted orthopedic procedures using intraoperatively attached markers.
Parker, Andrew J.; McKinney, Jr., Edward C.; Christianson, Tristan M.; Thalheimer, Richard J.; Lau, Shek Fai; Duncan, Mark; Taylor, Charles E., Multi-functional robot with remote and video system.
Philip C. Evans ; Frederic H. Moll ; Gary S. Guthart ; William C. Nowlin ; Rand P. Pendleton ; Christopher P. Wilson ; Andris D. Ramans ; David J. Rosa ; Volkmar Falk ; Robert G. Younge, Performing cardiac surgery without cardioplegia.
Katoh Kooichi,JPX ; Matsumoto Michio,JPX ; Sagara Makoto,JPX, Position control apparatus and method of the same, numerical control program preparation apparatus and method of the same, and methods of controlling numerical control machine tool.
Philippe Cinquin FR; Stephane Lavallee FR; Francois Leitner FR; Richard Minfelde FR; Frederic Picard ; Dominique Saragaglia FR; Hans-Joachim Schulz DE, Process and device for the preoperative determination of the positioning data of endoprosthetic parts.
Taylor Russell H. (Yorktown NY) Funda Janez (Valhalla NY) Grossman David D. (Chappaqua NY) Karidis John P. (Ossining NY) LaRose David A. (Croton on Hudson NY), Remote center-of-motion robot for surgery.
Cruz-Hernandez, Juan Manuel; Grant, Danny A.; Goldenberg, Alex S.; Gomez, Daniel H., Resistive and hybrid control schemes for haptic feedback interface devices.
Matsen ; III Frederick A. (Seattle WA) Garbini Joseph L. (Seattle WA) Sidles John A. (Seattle WA) Baumgarten Donald C. (Lynnwood WA) Pratt Brian S. (Seattle WA), Robot-aided system for surgery.
Matsen ; III Frederick A. (Seattle WA) Garbini Joseph L. (Seattle WA) Sidles John A. (Seattle WA) Baumgarten Donald C. (Lynnwood WA) Pratt Brian S. (Seattle WA), Robot-aided system for surgery.
Bernard Christopher J. ; Kang Hyosig ; Sachs Barton L. ; Singh Sunil K. ; Wen John T., Robotic system, docking station, and surgical tool for collaborative control in minimally invasive surgery.
Rosenberg Louis B. (Pleasanton CA) Braun Adam C. (Sunnyvale CA) Schena Bruce M. (Menlo Park CA), Safe and low cost computer peripherals with force feedback for consumer applications.
Nowlin, William C.; Mohr, Paul W; Schena, Bruce M.; Larkin, David Q.; Guthart, Gary, Software center and highly configurable robotic systems for surgery and other uses.
Malackowski, Donald W.; de la Barrere, Jose Luis Moctezuma; Hershberger, David E.; Bohringer, Markus; Forst, Peter; Buehner, Ulrich; Stangenberg, Martin; Culp, Jerry A.; Welte, Klaus, Surgery system.
Bucholz Richard D. ; Foley Kevin T. ; Smith Kurt R. ; Bass Daniel ; Wiedenmaier Thomas ; Pope Todd ; Wiedenmaier Udo, Surgical navigation systems including reference and localization frames.
Richard D. Bucholz ; Kevin T. Foley ; Kurt R. Smith ; Daniel Bass ; Thomas Wiedenmaier ; Todd Pope ; Udo Wiedenmaier, Surgical navigation systems including reference and localization frames.
Odermatt, Daniel; Bassik, Renen; Wu, Chunyan; Landeck, Danielle; Wojcik, Jason, Surgical robotic systems with manual and haptic and/or active control modes.
Sahay Alind ; Mittelstadt Brent ; Williamson ; Jr. Willie ; Zuhars Joel ; Kazanzides Peter, System and method for cavity generation for surgical planning and initial placement of a bone prosthesis.
Kaufman, Arie E.; Liang, Zhengrong; Wax, Mark R.; Wan, Ming; Chen, Dongquing, System and method for performing a three-dimensional examination with collapse correction.
Mittelstadt Brent D. ; Cohan Steven M. ; Schreiner Steve, System and method for performing image directed robotic orthopaedic procedures without a fiducial reference system.
Taylor Russell Highsmith (Ossining NY) Kim Yong-yil (Seoul KRX), System for manipulating movement of a surgical instrument with computer controlled brake.
Handley, Joshua; Midura, Marc; Payne, Bradley; Aviles, Walter A.; Massie, Thomas H.; Shannon, III, Walter C., Systems and methods for creating virtual objects in a sketch mode in a haptic virtual reality environment.
Loren Shih ; Walter A. Aviles ; Thomas H. Massie ; Christopher M. Tarr, Systems and methods for interacting with virtual objects in a haptic virtual reality environment.
Shih,Loren; Aviles,Walter A.; Massie,Thomas H.; Shannon, III,Walter C., Systems and methods for sculpting virtual objects in a haptic virtual reality environment.
Yanof, Jeffrey Harold; West, Karl J.; Bauer, Christopher; Kwartowitz, David Morgan, Tactile feedback and display in a CT image guided robotic system for interventional procedures.
Simon, David Anthnoy; Foley, Kevin T.; Carls, Thomas Andrew; Melkent, Anthony J., Trajectory storage apparatus and method for surgical navigation system.
Fukushima, Toshiyuki; Kura, Kaname; Sato, Masahir; Kida, Yoshiaki, Vehicular electronic control system, and electronic control unit, program, and storing member for the same.
Evans Richard John,GB2 ; Harris Christopher George,GB2 ; Colchester Alan Charles Francis,GB2, Video-based systems for computer assisted surgery and localisation.
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