Method and apparatus for controlling a haptic device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01C-009/00
G01C-017/00
G01C-019/00
A61B-019/00
A61B-017/17
A61B-017/00
출원번호
US-0750815
(2007-05-18)
등록번호
US-9492237
(2016-11-15)
발명자
/ 주소
Kang, Hyosig
Moses, Dennis
Quaid, Arthur
출원인 / 주소
MAKO Surgical Corp.
대리인 / 주소
Foley & Lardner LLP
인용정보
피인용 횟수 :
1인용 특허 :
149
초록▼
A method for calibrating a surgical device is provided. The method includes acquiring first data including a position and/or an orientation of a first object disposed on the surgical device at a first location; acquiring second data including a position and/or an orientation of a second object dispo
A method for calibrating a surgical device is provided. The method includes acquiring first data including a position and/or an orientation of a first object disposed on the surgical device at a first location; acquiring second data including a position and/or an orientation of a second object disposed on the surgical device at a second location; determining third data including a position and/or an orientation of the first object relative to the second location; and determining a position and/or an orientation of the second object relative to the second location based at least in part on the first data, the second data, and the third data.
대표청구항▼
1. A system for calibrating a surgical device, comprising: an arm tracker configured to be tracked by a detection device and to provide data indicating at least one of a global position and orientation of the arm tracker, wherein the arm tracker is coupled to a distal portion of an arm of the surgic
1. A system for calibrating a surgical device, comprising: an arm tracker configured to be tracked by a detection device and to provide data indicating at least one of a global position and orientation of the arm tracker, wherein the arm tracker is coupled to a distal portion of an arm of the surgical device;a device tracker configured to be tracked by the detection device and to provide data indicating at least one of a global position and orientation of the device tracker, wherein the device tracker is coupled to a base of the surgical device; anda computing system programmed to: perform a registration calibration of the surgical device, the registration calibration comprising: receiving, from the detection device, first data indicating the at least one of a global position and an orientation of the arm tracker when the arm tracker is disposed on the distal portion of the arm of the surgical device;receiving, from the detection device, second data indicating the at least one of a global position and an orientation of the device tracker when the device tracker is coupled to the base of the surgical device;receiving third data indicating at least one of a position and an orientation of the arm tracker relative to a reference point fixed in relation to the base;determining, while tracking the arm tracker and the device tracker by the detection device, at least one of the position and the orientation of the device tracker relative to the reference point based at least on each of the first data, the second data, and the third data; andalert a user if at least one of the arm tracker, the device tracker, the distal portion of the arm, and the reference point moves during the registration calibration while receiving at least one of the first data and the second data. 2. The system of claim 1, wherein the surgical device is configured to support a surgical tool coupled to the distal portion of the arm, and wherein the arm comprises an articulated linkage comprising at least one of a serial mechanism, a parallel mechanism, or a hybrid mechanism. 3. The system of claim 2, wherein a proximal portion of the arm is coupled to the base of the surgical device. 4. The system of claim 1, wherein the arm tracker includes a surface configured to abut a corresponding surface of the distal portion of the arm of the surgical device. 5. The system of claim 1, wherein the arm tracker includes a fixation device for attachment to the distal portion of the arm of the surgical device, and is configured such that the computing system can determine at least one of a point and an axis of the distal portion of the arm of the surgical device when the arm tracker is disposed on the distal portion of the arm of the surgical device. 6. The system of claim 5, wherein the fixation device is releasable, and the arm tracker is configured to be removed from the surgical device prior to a surgical procedure. 7. The system of claim 1, wherein the arm tracker comprises a first tracking element detectable by a detection device, and wherein the arm tracker has an as-designed geometric relationship with respect to at least one of a point and an axis of the surgical device when coupled to the distal portion of the arm of the surgical device. 8. The system of claim 7, wherein the device tracker comprises a second tracking element detectable by the detection device. 9. The system of claim 8, wherein the first tracking element comprises a first array of markers and the second tracking element comprises a second array of markers. 10. The system of claim 9, wherein the detection device comprises an optical tracking system configured to detect positions of the first and second arrays of markers. 11. The system of claim 10, wherein the first data is associated with the first array of markers and the second data is associated with the second array of markers. 12. The system of claim 11, wherein the first and second data comprise multiple data points, and wherein the computing system is further programmed to average the multiple data points to reduce effects of sensor noise. 13. The system of claim 12, wherein at least a portion of the third data is associated with readings provided by position sensors configured to detect a configuration of the arm. 14. The system of claim 13, wherein the position sensors comprise joint encoders configured to detect relationships between segments of the arm. 15. The system of claim 1, wherein a position of the device tracker is adjustable relative to the reference point. 16. The system of claim 15, wherein the device tracker is coupled to the base by way of an adjustable linkage configured to allow the device tracker to move with respect to the base and further configured to lock the device tracker in a fixed position with respect to the base. 17. The system of claim 1, wherein the computing system is further programmed to transform at least a portion of the first and second data from a first coordinate frame to a second coordinate frame. 18. A system for calibrating a surgical device, comprising: a first object configured to be tracked by a detection device and to provide data indicating at least one of a global position and orientation of the first object wherein the first object is disposed on the surgical device;a second object configured to be tracked by the detection device and to provide data indicating at least one of a global position and orientation of the second object wherein the second object is disposed on the surgical device; anda computing system programmed to: perform a registration calibration of the surgical device, the registration calibration comprising: determining, using data from the detection device, first data including at least one of a position and an orientation of the first object when the first object is disposed on the surgical device at a first location;determining, using data from the detection device, second data including at least one of a position and an orientation of the second object when the second object is disposed on the surgical device at a second location;determining third data including at least one of a position and an orientation of the first object relative to a reference location; anddetermining, while tracking the first object and the second object by the detection device, at least one of a position and an orientation of the second object relative to the reference location based at least on each of the first data, the second data, and the third data,wherein the computing system is programmed to alert a user if at least one of the first object, the second object, the first location, and the second location moves during the registration calibration while determining at least one of the first data and the second data.
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이 특허에 인용된 특허 (149)
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.
Kalend Andre M. ; Greenberger Joel ; Shimoga Karun B. ; Athanassiou Charalambos N. ; Kanade Takeo, Apparatus responsive to movement of a patient during treatment/diagnosis.
Gunter D. Niemeyer ; Gary S. Guthart ; William C. Nowlin ; Nitish Swarup ; Gregory K. Toth ; Robert G. Younge, Camera referenced control in a minimally invasive surgical apparatus.
Salisbury ; Jr. J. Kenneth (Cambridge MA) Townsend William T. (Somerville MA) DiPietro David M. (Webster NY) Eberman Brian S. (Rochester MN), Compact cable transmission with cable differential.
Salisbury ; Jr. J. Kenneth (Cambridge MA) Townsend William T. (Somerville MA) DiPietro David M. (Webster NY) Eberman Brian S. (Rochester MN), Compact cable transmission with cable differential.
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.
Rosenberg, Louis B.; Mather, Matthew; Grant, Danny; Ramstein, Christophe, Controlling haptic feedback for enhancing navigation in a graphical environment.
Mallett, Jeffrey R.; Chang, Dean C.; Rosenberg, Louis B.; Braun, Adam C.; Martin, Kenneth M.; Beamer, Jonathan L., Enhanced cursor control using interface devices.
Mallett Jeffrey R. ; Chang Dean C. ; Rosenberg Louis B. ; Braun Adam C. ; Martin Kenneth M. ; Beamer Jonathan L., Enhanced cursor control using limited-workspace force feedback devices.
Braun Adam C. ; Beamer Jonathan L. ; Rosenberg Louis B. ; Chang Dean C., Force feedback system including multi-tasking graphical host environment and interface device.
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.
Booth ; Jr. Robert E. (Philadelphia PA) Stalcup Gregory C. (Columbia City IN) Bays Rodney (Pierceton IN) Sisk Billy N. (Claypool IN) Dietzel Steven E. (Peru IN) Miller Timothy R. (Austin TX), Instrumentation for use in orthopaedic surgery.
Allen George S. (628 Westview Ave. Nashville TN 37205) Galloway ; Jr. Robert L. (7736 Indian Springs Dr. Nashville TN 37221) Maciunas Robert J. (6320 Chickering Woods La. Nashville TN 37215) Edwards , Interactive image-guided surgical system.
Allen George S. (628 Westview Ave. Nashville TN 37205) Galloway ; Jr. Robert L. (7736 Indian Springs Dr. Nashville TN 37221) Maciunas Robert J. (6320 Chickering Woods La. Nashville TN 37215) Edwards , Interactive image-guided surgical system for displaying images corresponding to the placement of a surgical tool or the.
Rosenberg Louis B. ; Beamer Jonathan L. ; Braun Adam C. ; Chang Dean C., Interface device and method for providing indexed cursor control with force feedback.
Guthrie Barton L. ; Cosman Eric R. ; Daniels Robert A. ; Cundari Michael A. ; Mauge Christophe P., Intraoperative recalibration apparatus for stereotactic navigators.
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.
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.
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.
Manwaring Kim H. (3440 E. Tonto Dr. Ahwatukee AZ 85044) Manwaring Mark L. (SW. 1430 Wadleigh Dr. Pullman WA 99163), Method and apparatus for guiding an instrument to a target.
Dance Mark N. (Vancouver CAX) Salvestrao Aldo T. (Vancouver CAX) Auchinleck Geoffrey F. (Vancouver CAX), Method and apparatus for locating functional structures of the lower leg during knee surgery.
Rosenberg Louis B. (Pleasanton CA) Jackson Bernard G. (Atherton CA), Method and apparatus for providing a cursor control interface with force feedback.
Bieger, Johannes; Graumann, Rainer; Rahn, Norbert, Method and device for visualization of positions and orientation of intracorporeally guided instruments during a surgical intervention.
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.
Rosenberg Louis B. ; Brave Scott B., Method for providing force feedback to a user of an interface device based on interactions of a controlled cursor with graphical elements in a graphical user interface.
Fitzpatrick J. Michael (6301 Robin Hill Rd. Nashville TN 37205) McCrory Jennifer J. (9 Timberland Dr. Lincoln RI 02865), Method for relating the data of an image space to physical space.
Sarin, Vineet Kumar; Pratt, Clyde Ronald; Apgar, Mark Edward; Pratt, William Ralph, Non-imaging, computer assisted navigation system for hip replacement surgery.
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.
Ferre Maurice R. (North Andover MA) Jakab Peter D. (Canton MA) Tieman James S. (Watertown MA), Position tracking and imaging system with error detection for use in medical applications.
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.
Rosenberg,Louis B.; Brave,Scott B., Providing force feedback to a user of an interface device based on interactions of a user-controlled cursor in a graphical user interface.
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.
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.
Funda Janez (Valhalla NY) LaRose David A. (Croton on Hudson NY) Taylor Russell H. (Ossining NY), Robotic system for positioning a surgical instrument relative to a patient\s body.
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.
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.
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.
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 Anthony; Foley, Kevin T.; Carls, Thomas Andrew; Melkent, Anthony J., Trajectory storage apparatus and method for surgical navigation systems.
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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