Patent application number | Description | Published |
20090248037 | MEDICAL ROBOTIC SYSTEM ADAPTED TO INHIBIT MOTIONS RESULTING IN EXCESSIVE END EFFECTOR FORCES - A medical robotic system includes a surgical instrument, a robotic arm assembly, an input device, and a processor. The surgical instrument has an end effector and a sensor for sensing a force exerted by the end effector, and is operatively mounted on the robotic arm assembly. The processor is configured to receive commanded movement of the end effector from the input device, receive information of the force from the sensor, determine a reduced velocity of the commanded movement that would inhibit damage causing motion of the end effector, and control robotic manipulation of the surgical instrument in response to the commanded movement of the end effector while restricting the velocity of the commanded movement to the reduced velocity. | 10-01-2009 |
20090248038 | FORCE AND TORQUE SENSING IN A SURGICAL ROBOT SETUP ARM - An apparatus, system, and method for improving force and torque sensing and feedback to the surgeon performing a telerobotic surgery are provided. In one embodiment, a robotic surgical manipulator system, a robotic surgical system, and a method for improved sensing of forces on a robotic surgical instrument and/or manipulator arm are disclosed. | 10-01-2009 |
20100082041 | Passive preload and capstan drive for surgical instruments - A robotic surgical system uses a passive preload system attached to a tendon that is wrapped around a capstan to control relaxed tension in the tendon. The passive preload system can employ a spring or other structure to apply tension to the tendon. The capstan can be driven by a motor when the tendon is needed to pull on a structural member of the instrument. For example, for the application of clamping pressure or movement of the structural member against resistance, capstan friction can produce the tendon tension that is many times the tension applied by the passive preload system. However, when the tendon is not needed to apply force to the member, the capstan can be freed, so that the spring system provides enough tension to prevent derailment or other malfunctions of the tendon. The low tension in relaxed tendons can reduce tendon friction, particularly in instruments with flexible shafts. | 04-01-2010 |
20100160724 | FLEXIBLE SURGICAL INSTRUMENT WITH LINKS UNDERGOING SOLID-STATE TRANSITIONS - A surgical instrument has a tip section with several degrees of freedom of articulation and at least one link that may be too long for insertion through an entry guide that follows a curved path. Each long link is made of a shape memory alloy or another material having a state in which the link is sufficiently flexible to bend as needed to pass through the entry guide. Once through the entry guide, the material of the link makes a transition to a state in which the link returns to a desired shape and is sufficiently rigid for precise controlled movement against external forces and for actuation using tendons. | 06-24-2010 |
20100228265 | Operator Input Device for a Robotic Surgical System - A robotic surgical system includes a master controller with an input handle and robotic manipulator assemblies including a surgical end effector and an endoscopic camera. The input handle is translatable to provide a position and rotatable to provide an orientation. A control system couples the master controller to the first and second manipulator assemblies. The control system moves the surgical end effector in response to the position and orientation of the input handle. The control system moves the input handle to orient the input handle to correspond to an orientation of the surgical end effector from a viewpoint of the endoscopic camera during the repositioning of at least one of the input handle position, the end effector, or the endoscopic camera. The control system may move the surgical end effector only in a first mode and orients the input handle only in a second mode. | 09-09-2010 |
20100331820 | COMPLIANT SURGICAL DEVICE - A compliant surgical device such as a flexible entry guide employs tendons to operate or steer the device and attaches asymmetric or constant force spring systems to control tension in the tendons. As a result, the surgical device can be compliant and respond to external forces during a surgical procedure without rapidly springing back or otherwise causing a reaction that damages tissue. The compliance also permits manual positioning or shaping of the device during or before insertion for a surgical procedure without damaging the tendons or connections of the tendons within the device or to a backend mechanism | 12-30-2010 |
20110040306 | Medical Robotic System Adapted to Inhibit Motions Resulting in Excessive End Effector Forces - A medical robotic system includes a surgical instrument, a robotic arm assembly, an input device, and a processor. The surgical instrument has an end effector and a sensor for sensing a force exerted by the end effector, and is operatively mounted on the robotic arm assembly. The processor is configured to receive commanded movement of the end effector from the input device, receive information of the force from the sensor, determine a reduced velocity of the commanded movement that would inhibit damage causing motion of the end effector, and control robotic manipulation of the surgical instrument in response to the commanded movement of the end effector while restricting the velocity of the commanded movement to the reduced velocity. | 02-17-2011 |
20110118749 | METHOD AND SYSTEM TO SENSE RELATIVE PARTIAL-POSE INFORMATION USING A SHAPE SENSOR - A shape-sensing segment traverses through at least a portion of a kinematic chain of a tele-operated slave surgical instrument in a tele-operated minimally-invasive surgical system. The shape-sensing segment includes a pre-set perturbation. Shape information from the pre-set perturbation allows determination of relative partial-pose information for at least one link in the kinematic chain. | 05-19-2011 |
20110119023 | METHOD AND SYSTEM TO SENSE RELATIVE PARTIAL-POSE INFORMATION USING A SHAPE SENSOR - A shape-sensing segment traverses through at least a portion of a kinematic chain of a tele-operated slave surgical instrument in a tele-operated minimally-invasive surgical system. The shape-sensing segment includes a pre-set perturbation. Shape information from the pre-set perturbation allows determination of relative partial-pose information for at least one link in the kinematic chain. | 05-19-2011 |
20110160904 | MEDICAL ROBOTIC SYSTEM WITH SLIDING MODE CONTROL - A medical robotic system has a joint coupled to medical device or a slave manipulator or robotic arm adapted to hold and/or move the medical device for performing a medical procedure, and a control system for controlling movement of the joint according to user manipulation of a master manipulator. The control system includes at least one joint controller having a sliding mode control for reducing stick-slip behavior on its controlled joint during fine motions of the joint. The sliding mode control computes a distance to a sliding surface, computes a reaching law gain, and processes the distance and reaching law gain to generate a sliding mode control action that is in absolute value less that a maximum desired feedback control action. The sliding mode control action is then further processed to generate a feedback torque command for the joint motor. | 06-30-2011 |
20110166706 | MEDICAL ROBOTIC SYSTEM WITH SLIDING MODE CONTROL - A medical robotic system has a joint coupled to medical device or a slave manipulator or robotic arm adapted to hold and/or move the medical device for performing a medical procedure, and a control system for controlling movement of the joint according to user manipulation of a master manipulator. The control system includes at least one joint controller having a sliding mode control for reducing stick-slip behavior on its controlled joint during fine motions of the joint. The sliding mode control computes a distance to a sliding surface, computes a reaching law gain, and processes the distance and reaching law gain to generate a sliding mode control action that is in absolute value less that a maximum desired feedback control action. The sliding mode control action is then further processed to generate a feedback torque command for the joint motor. | 07-07-2011 |
20110202069 | METHOD AND SYSTEM FOR ABSOLUTE THREE-DIMENSIONAL MEASUREMENTS USING A TWIST-INSENSITIVE SHAPE SENSOR - An apparatus includes a reference fixture. The reference fixture includes a joint, and a joint tracker to track motion of the joint. The apparatus also includes a surgical instrument. A tether is connected between the joint and the surgical instrument. A shape sensor extends from the reference fixture through the joint, through the tether, and into the surgical instrument. The shape sensor is substantially free of twist. The joint tracker measures the motion of the joint. Information from the shape sensor in combination with information from the joint tracker provides absolute three-dimensional information relative to the reference fixture, i.e., provides absolute three-dimensional information in a fixed world reference frame. | 08-18-2011 |
20140277738 | CONTROL OF MEDICAL ROBOTIC SYSTEM MANIPULATOR ABOUT KINEMATIC SINGULARITIES - A medical robotic system includes an entry guide with articulatable instruments extending out of its distal end, an entry guide manipulator providing controllable four degrees-of-freedom movement of the entry guide relative to a remote center, and a controller configured to manage operation of the entry guide manipulator in response to operator manipulation of one or more input devices. As the entry guide manipulator approaches a yaw/roll singularity, the controller modifies its operation to allow continued movement of the entry guide manipulator without commanding excessive joint velocities while maintaining proper orientation of the entry guide. | 09-18-2014 |
Patent application number | Description | Published |
20110071541 | CURVED CANNULA - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 03-24-2011 |
20110071542 | CURVED CANNULA SURGICAL SYSTEM - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 03-24-2011 |
20110071543 | CURVED CANNULA SURGICAL SYSTEM CONTROL - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. The flexible shaft instruments are controlled as if extending along a virtual straight line insertion and withdrawal axis. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. | 03-24-2011 |
20110071544 | CURVED CANNULA INSTRUMENT - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. Force isolation elements within the flexible shafts prevent shaft bending from affecting end effector actuation elements that extends through the shafts. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 03-24-2011 |
20110082365 | LATERALLY FENESTRATED CANNULA - A cannula provides access to a surgical site for a camera instrument and one or more minimally invasive surgical instruments. The cannula may include a curved or flexible section when used with flexible surgical instruments. A service port is defined in a sidewall between proximal and distal ends of the cannula, the service port being large enough to allow an object to be transferred between the instruments and a location outside the cannula. An end effector of the surgical instrument may be positioned within the cannula adjacent the service port. The camera instrument may be positioned to place the end effector within a field of view of the camera. An object may be transferred between a service instrument and the surgical instrument within the field of view of the camera. | 04-07-2011 |
20110113852 | OPTICAL FIBER SHAPE SENSOR CALIBRATION - Calibration methods and apparatuses for a shape sensing optical fiber are disclosed. Strain is sensed in an optical fiber that is associated with a kinematic chain, and information derived from the sensed strain is used to determine a calibration relationship between the fiber and the kinematic chain. The strain may be sensed at a plurality of angles between two links in the kinematic chain. The strain may be sensed in a segment of the optical fiber that is associated with a joint in the kinematic chain as the joint sweeps through an arc. The strain may be sensed for the optical fiber in a known, predefined bend shape. The calibration information is stored in memory for later use during operation of the kinematic chain, so that shape information from the optical fiber can be used to accurately indicate the shape or pose of the kinematic chain. | 05-19-2011 |
20110196199 | METHOD AND SYSTEM FOR AUTOMATICALLY MAINTAINING AN OPERATOR SELECTED ROLL ORIENTATION AT A DISTAL TIP OF A ROBOTIC ENDOSCOPE - In a robotic endoscope system, the orientation of a captured camera view at a distal tip of a robotic endoscope and displayed on a screen viewable by an operator of the endoscope is automatically maintained at a roll orientation associated with a setpoint so as not to disorient the operator as the endoscope is moved, flexed and its tip turned in different orientations. A processor generates a current commanded state of the tip from operator input and modifies it to maintain the setpoint roll orientation. To generate the modified current commanded state, the current commanded roll position and velocity are constrained to be a modified current commanded roll position and velocity that have been modified according to a roll angular adjustment indicated by a prior process period commanded state of the tip and the setpoint. The processor then commands the robotic endoscope to be driven to the modified commanded state. | 08-11-2011 |
20110201883 | Entry Guide for Multiple Instruments in a Single Port Surgical System - An access port for use in single port surgery includes a cannula to provide minimally invasive access to a surgical site and an instrument guide that fits closely within the cannula. The instrument guide includes guide channels that are open to the outside surface of the instrument guide. Each of the guide channels is configured to support a single surgical instrument at a defined position within the cannula. The guide channels may be smoothly enlarged at the end that receives surgical instruments. The access port may further include a seal that couples the instrument guide to the cannula such that the seal retains a pressurized insufflation fluid within the surgical site. The instrument guide may include one or more insufflation channels for introducing an insufflation fluid to the surgical site. The access port may include a flexible section. The surgical instruments may be controlled robotically by servo actuators. | 08-18-2011 |
20110282491 | DRIVE FORCE CONTROL IN MEDICAL INSTRUMENT PROVIDING POSITION MEASUREMENTS - Control systems and methods for a remote joint use position measurements to determine and control the force that an actuator applies to the joint through a linkage. The use of force and feedback allows control of a medical instrument having a linkage that provides non-negligible compliance between the joint and a proximal actuator and particularly allows precise instrument operation even when the position of the distal joint cannot be directly related to the proximal motor position. | 11-17-2011 |
20120123395 | FLEXIBLE SURGICAL DEVICES - A surgical device can include a tube comprising a wall having a plurality of slits oriented generally transverse to a longitudinal axis of the tube. Each of the slits may be defined by opposing surfaces. The surgical device can further include a force transmission element coupled to the tube. In a flexible state of the tube, at least some of the opposing surfaces defining respective slits are separated from one another, and in a stiffened state of the tube, a force exerted on the force transmission element causes the opposing surfaces of each slit to contact one another. | 05-17-2012 |
20120123441 | TENSION CONTROL IN ACTUATION OF MULTI-JOINT MEDICAL INSTRUMENTS - Control systems and methods for a medical instrument use measurements to determine and control the tensions that actuators apply through instrument transmission systems. The use of tension and feedback allows control of a medical instrument having transmission systems that provide non-negligible compliance between joints and actuators even when the positions of joints cannot be directly related to actuator positions. One embodiment determines joint torques and tensions from differences between desired and measured joint positions. Another embodiment determines joint torques and tensions from differences between desired and measured positions of a tip of the instrument. Determination of tensions from joint torques can be performed using sequential evaluation of joints in an order from a distal end of the instrument toward a proximal end of the instrument. | 05-17-2012 |
20120289777 | MEDICAL SYSTEM PROVIDING DYNAMIC REGISTRATION OF A MODEL OF AN ANATOMICAL STRUCTURE FOR IMAGE-GUIDED SURGERY - A medical system provides navigation assistance to a surgeon so that the surgeon may navigate a flexible medical device through linked passages of an anatomical structure to a target in or adjacent to the anatomical structure. As the medical device moves through the linked passages, images are captured by an image capturing element at its distal end and pose and shape information for the medical device are received from sensors disposed in the medical device. A 4-D computer model of the anatomical structure is registered to the medical device using one or both of 4-D shape registration and virtual camera registration so that the captured image and a virtual image generated from the perspective of a virtual camera are registered to each other and displayed while providing an indication of a navigational path to the target. | 11-15-2012 |
20120289783 | MEDICAL SYSTEM WITH MULTIPLE OPERATING MODES FOR STEERING A MEDICAL INSTRUMENT THROUGH LINKED BODY PASSAGES - A controller operates in different operating modes to control movement of a distal tip of a medical instrument when inserting and retracting the medical instrument through linked body passages. When inserting the medical instrument, the controller normally operates in an automatic navigation mode unless manually overridden to operate in a manual mode. When retracting the medical instrument, the controller normally operates in a zero-force mode to allow the distal tip to freely move so that it may comply with the shape of the passages as the medical instrument is being retracted through the linked body unless manually overridden to operate in a manual mode. | 11-15-2012 |
20120289843 | METHOD AND SYSTEM FOR DETERMINING INFORMATION OF EXTREMA DURING EXPANSION AND CONTRACTION CYCLES OF AN OBJECT - A medical system provides navigation assistance to a surgeon for navigating a flexible medical device through linked passages of an anatomical structure to a target area. For tracking, navigation, and other purposes, information of extrema is determined during expansion and contraction cycles of an object by receiving time sampled information from sensors distributed along a length of a flexible device so as to indicate the shape of the device over time while the device extends through a lumen of the object so as to conform to and resemble the shape of the lumen, displacements over time of a selected point at a selected insertion length of the flexible device into the lumen of the object relative to a reference point are determined, extrema time points are determined by identifying sign changes of the slope of the determined displacements over time, and extrema types are determined using extrema type characteristics. | 11-15-2012 |
20120289973 | INSTRUMENT INTERFACE - A mechanical interface for a robotic medical instrument permits engagement of the instrument and a drive system without causing movement of an actuated portion of the instrument. An instrument interface can include a symmetrical, tapered or cylindrical projection on one of a medical instrument or a drive system and a complementary bore in the other of the drive system or the medical instrument. Symmetry of the projection and the bore allows the projection to be compression fit to the bore regardless of the rotation angle of the drive system relative to the medical instrument. | 11-15-2012 |
20120290134 | ESTIMATION OF A POSITION AND ORIENTATION OF A FRAME USED IN CONTROLLING MOVEMENT OF A TOOL - A robotic system includes a camera having an image frame whose position and orientation relative to a fixed frame is determinable through one or more image frame transforms, a tool disposed within a field of view of the camera and having a tool frame whose position and orientation relative to the fixed frame is determinable through one or more tool frame transforms, and at least one processor programmed to identify pose indicating points of the tool from one or more camera captured images, determine an estimated transform for an unknown one of the image and tool frame transforms using the identified pose indicating points and known ones of the image and tool frame transforms, update a master-to-tool transform using the estimated and known ones of the image and tool frame transforms, and command movement of the tool in response to movement of a master using the updated master-to-tool transform. | 11-15-2012 |
20130096377 | CATHETER WITH REMOVABLE VISION PROBE - A medical system includes a catheter and a vision probe that can be removed from the catheter and replaced with a medical probe. The vision probe can thus be used to steer and pose the catheter, and then be removed and replaced with the medical probe when a medical task such as a lung biopsy is performed. A sensor system in the catheter at least partly measures a pose of the catheter, and control logic controls actuation of the catheter to maintain the desired working configuration when the medical probe is used. A small diameter catheter can thus provide vision and biopsy functionality. | 04-18-2013 |
20130096385 | VISION PROBE AND CATHETER SYSTEMS - A medical system includes a catheter and a vision probe that can be removed from the catheter and replaced with a medical probe. Functionality for the system is divided between the catheter and the vision probe. In particular, the removable vision probe can provide imaging, illumination, irrigation, and suction that may be employed before a medical probe is deployed. The catheter can include actuation and sensing structures that are useful with or necessary for both vision and medical probes. Accordingly, the catheter can maximize available space for probes and still provide all necessary functions for use of a medical probe when the vision probe is removed. | 04-18-2013 |
20130096497 | CATHETERS WITH CONTROL MODES FOR INTERCHANGEABLE PROBES - A medical system including a catheter containing a mechanical system that is remotely operable uses a sensor to at least partly measure a pose of the catheter and a control system coupled to the mechanical system. The control system has multiple operating modes including one or more holding modes in which the control system operates the mechanical system to maintain a working configuration of the catheter based on feedback from the sensor. | 04-18-2013 |
20130096572 | CATHETER SENSOR SYSTEMS - A medical system including a catheter or other flexible structure uses a combination of two different sensor systems to measure a pose of a section or tip of the catheter or flexible structure. The first sensor system, which may include an electromagnetic sensor, can measure a pose of a first section of the catheter, and the second sensor system can measure a pose of the second section relative to the first section. The second sensor system may employ a technology such as fiber shape sensing that permits the second section to be smaller than the first section, so that a distal tip of the catheter or flexible structure can fit within smaller natural lumens. | 04-18-2013 |
20130331857 | INSTRUMENT INTERFACE - A mechanical interface for a robotic medical instrument permits engagement of the instrument and a drive system without causing movement of an actuated portion of the instrument. An instrument interface can include a symmetrical, tapered or cylindrical projection on one of a medical instrument or a drive system and a complementary bore in the other of the drive system or the medical instrument. Symmetry of the projection and the bore allows the projection to be compression fit to the bore regardless of the rotation angle of the drive system relative to the medical instrument. | 12-12-2013 |
20140005687 | CURVED CANNULA SURGICAL SYSTEM | 01-02-2014 |
20140018823 | CURVED CANNULA INSTRUMENT - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. Force isolation elements within the flexible shafts prevent shaft bending from affecting end effector actuation elements that extends through the shafts. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 01-16-2014 |
20140105534 | Fixture For Shape-Sensing Optical Fiber in a Kinematic Chain - A first link and a second link are articulated relative to each other via a joint coupled between the first and second links. A shape-sensing optical fiber is used to sense a position of the first link and the second link relative to each other. The fiber passes through a channel having an opening defining a lip and extending from the first link toward the joint. The lip has a curved surface that begins substantially tangent to a wall of the channel, and during bending of the optical fiber, the optical fiber is positioned tangent to the curved surface of the lip. | 04-17-2014 |
20140200407 | METHOD AND SYSTEM FOR AUTOMATICALLY MAINTAING AN OPERATOR SELECTED ROLL ORIEINTATION AT A DISTAL TIP OF A ROBOTIC ENDOSCOPE - In a robotic endoscope system, the orientation of a captured camera view at a distal tip of a robotic endoscope and displayed on a screen viewable by an operator of the endoscope is automatically maintained at a roll orientation associated with a setpoint so as not to disorient the operator as the endoscope is moved, flexed and its tip turned in different orientations. A processor generates a current commanded state of the tip from operator input and modifies it to maintain the setpoint roll orientation. To generate the modified current commanded state, the current commanded roll position and velocity are constrained to be a modified current commanded roll position and velocity that have been modified according to a roll angular adjustment indicated by a prior process period commanded state of the tip and the setpoint. The processor then commands the robotic endoscope to be driven to the modified commanded state. | 07-17-2014 |
20150045814 | CURVED CANNULA SURGICAL SYSTEM CONTROL - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. The flexible shaft instruments are controlled as if extending along a virtual straight line insertion and withdrawal axis. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. | 02-12-2015 |