Patents by Inventor J. Scot Hart
J. Scot Hart has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11660153Abstract: Various exemplary drive apparatuses and associated methods are disclosed for driving an elongated member, e.g., a catheter, sheath, or guidewire. An exemplary drive apparatus may include a first component and a moveable component, each configured to selectively grip the elongated member. In some examples, the first and moveable components may each include a gripping device. The moveable component may be configured to selectively move axially and rotationally with respect to a support surface to effect axial movement and rotation movement, respectively, of the elongated member with respect to the support surface within a range of motion of the moveable component. The moveable component may be configured to move the elongated member across a predetermined movement having a magnitude greater than the range of motion.Type: GrantFiled: September 2, 2020Date of Patent: May 30, 2023Assignee: Auris Health, Inc.Inventors: Arkady Kokish, J. Scot Hart, Jr., Alan L. Yu, Enrique Romo
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Publication number: 20230123065Abstract: Systems and methods of controlling instruments include first and second actuators configured to actuate a degree of freedom (DOF) in first and second directions using respective transmission mechanisms and a control unit. The control unit is configured to determine positions of the first and second actuators; determine an actuation command based on the positions of the first and second actuators, and a desired state of the DOF; determine respective actuation levels of the first and second actuators so as to maintain tensions in the transmission mechanisms above respective minimum tensions by: using a model based on the force or torque command, the minimum tensions, and the first and second actuator positions; and command actuation of the first and second actuators at the respective actuation levels. The model compensates for an external disturbance on the DOF and for dynamics of the first and second actuators.Type: ApplicationFiled: March 25, 2021Publication date: April 20, 2023Inventors: Gabriel F. Brisson, J. Scot HART, Brian D. SOE
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Publication number: 20230043963Abstract: A robotic surgical system configured for the articulation of a catheter comprises an input device, a control computer, and an instrument driver having at least one motor for displacing the pull-wire of a steerable catheter wherein the control computer is configured to determine the desired motor torque or tension of the pull-wire of a catheter based on user manipulation of the input device. The control computer is configured to output the desired motor torque or tension of the pull-wire to the instrument driver, whereby at least one motor of the instrument driver implements the desired motor torque to cause the desired pull-wire tension to articulate the distal tip of the catheter.Type: ApplicationFiled: October 28, 2022Publication date: February 9, 2023Inventors: J. Scot Hart, Francis Macnamara
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Publication number: 20220378537Abstract: A joint structure includes a first link and a second link coupled to one another by a joint. The first link and the second link are articulatable relative to each other about the joint. An actuation element extends through a first guide channel in the first link and a second guide channel in the second link. The first guide channel terminates in an opening where the actuation element extends from the first link to extend across the joint to the second link. A first edge portion of the opening is at a first location along a longitudinal axis of the first guide channel, and a second edge portion of the opening is at a second location different from the first location along the longitudinal axis of the first guide channel. Systems and devices include related joint structures.Type: ApplicationFiled: October 21, 2020Publication date: December 1, 2022Applicant: INTUITIVE SURGICAL OPERATIONS, INC.Inventors: Tiber HITES, J. Scot HART
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Patent number: 11452844Abstract: A robotic surgical system configured for the articulation of a catheter comprises an input device, a control computer, and an instrument driver having at least one motor for displacing the pull-wire of a steerable catheter wherein the control computer is configured to determine the desired motor torque or tension of the pull-wire of a catheter based on user manipulation of the input device. The control computer is configured to output the desired motor torque or tension of the pull-wire to the instrument driver, whereby at least one motor of the instrument driver implements the desired motor torque to cause the desired pull-wire tension to articulate the distal tip of the catheter.Type: GrantFiled: November 21, 2019Date of Patent: September 27, 2022Assignee: Auris Health, Inc.Inventors: J. Scot Hart, Francis Macnamara
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Publication number: 20220087755Abstract: A medical robotic system includes a base having a first opening, and a first protrusion next to the first opening, a first rotary member configured for detachably coupling to a component of the medical robotic system in a manner such that the first rotary member is rotatable relative to the base and at least a part of the first rotary member is located in the first opening of the base when the first rotary member is coupled to the system component, and a cover coupled to the base, wherein the first rotary member comprises a first end, a second end, a body extending between the first and second ends, and a flange disposed circumferentially around a part of the body, the flange having a first circumferential slot for receiving the first protrusion.Type: ApplicationFiled: October 18, 2021Publication date: March 24, 2022Inventors: Enrique Romo, J. Scot Hart, JR., Travis Covington
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Patent number: 11147637Abstract: A medical robotic system includes a base having a first opening, and a first protrusion next to the first opening, a first rotary member configured for detachably coupling to a component of the medical robotic system in a manner such that the first rotary member is rotatable relative to the base and at least a part of the first rotary member is located in the first opening of the base when the first rotary member is coupled to the system component, and a cover coupled to the base, wherein the first rotary member comprises a first end, a second end, a body extending between the first and second ends, and a flange disposed circumferentially around a part of the body, the flange having a first circumferential slot for receiving the first protrusion.Type: GrantFiled: August 4, 2016Date of Patent: October 19, 2021Assignee: Auris Health, Inc.Inventors: Enrique Romo, J. Scot Hart, Jr., Travis Covington
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Publication number: 20210298751Abstract: Techniques for controlling an end effector include a computer-assisted device having a drive system configured to actuate a moveable element to a first commanded position and a control unit coupled to the drive system. The control unit is configured to actuate, using the drive system, the moveable element to the first commanded position. The control unit is further configured to monitor a force or torque applied by the drive system to actuate the moveable element to the first commanded position, determine a force or torque limit for the drive system based on the monitored force or torque applied by the drive system in response to determining that the moveable element has reached a first position, and further actuate the moveable element to a second commanded position while limiting a force or torque applied by the drive system based on the determined force or torque limit.Type: ApplicationFiled: March 24, 2021Publication date: September 30, 2021Inventor: J. Scot HART
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Publication number: 20200405413Abstract: Various exemplary drive apparatuses and associated methods are disclosed for driving an elongated member, e.g., a catheter, sheath, or guidewire. An exemplary drive apparatus may include a first component and a moveable component, each configured to selectively grip the elongated member. In some examples, the first and moveable components may each include a gripping device. The moveable component may be configured to selectively move axially and rotationally with respect to a support surface to effect axial movement and rotation movement, respectively, of the elongated member with respect to the support surface within a range of motion of the moveable component. The moveable component may be configured to move the elongated member across a predetermined movement having a magnitude greater than the range of motion.Type: ApplicationFiled: September 2, 2020Publication date: December 31, 2020Inventors: Arkady Kokish, J. Scot Hart, JR., Alan L. Yu, Enrique Romo
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Patent number: 10792112Abstract: Various exemplary drive apparatuses and associated methods are disclosed for driving an elongated member, e.g., a catheter, sheath, or guidewire. An exemplary drive apparatus may include a first component and a moveable component, each configured to selectively grip the elongated member. In some examples, the first and moveable components may each include a gripping device. The moveable component may be configured to selectively move axially and rotationally with respect to a support surface to effect axial movement and rotation movement, respectively, of the elongated member with respect to the support surface within a range of motion of the moveable component. The moveable component may be configured to move the elongated member across a predetermined movement having a magnitude greater than the range of motion.Type: GrantFiled: August 5, 2016Date of Patent: October 6, 2020Assignee: Auris Health, Inc.Inventors: Arkady Kokish, J. Scot Hart, Jr., Alan L. Yu, Enrique Romo
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Publication number: 20200086087Abstract: A robotic surgical system configured for the articulation of a catheter comprises an input device, a control computer, and an instrument driver having at least one motor for displacing the pull-wire of a steerable catheter wherein the control computer is configured to determine the desired motor torque or tension of the pull-wire of a catheter based on user manipulation of the input device. The control computer is configured to output the desired motor torque or tension of the pull-wire to the instrument driver, whereby at least one motor of the instrument driver implements the desired motor torque to cause the desired pull-wire tension to articulate the distal tip of the catheter.Type: ApplicationFiled: November 21, 2019Publication date: March 19, 2020Inventors: J. Scot Hart, Francis Macnamara
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Patent number: 10493239Abstract: A robotic surgical system configured for the articulation of a catheter includes an input device, a control computer, and an instrument driver having at least one motor for displacing the pull-wire of a steerable catheter wherein the control computer is configured to determine the desired motor torque or tension of the pull-wire of a catheter based on user manipulation of the input device. The control computer is configured to output the desired motor torque or tension of the pull-wire to the instrument driver, whereby at least one motor of the instrument driver implements the desired motor torque to cause the desired pull-wire tension to articulate the distal tip of the catheter.Type: GrantFiled: March 23, 2017Date of Patent: December 3, 2019Assignee: Auris Health, Inc.Inventors: J. Scot Hart, Francis Macnamara
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Publication number: 20170209672Abstract: A robotic surgical system configured for the articulation of a catheter comprises an input device, a control computer, and an instrument driver having at least one motor for displacing the pull-wire of a steerable catheter wherein the control computer is configured to determine the desired motor torque or tension of the pull-wire of a catheter based on user manipulation of the input device. The control computer is configured to output the desired motor torque or tension of the pull-wire to the instrument driver, whereby at least one motor of the instrument driver implements the desired motor torque to cause the desired pull-wire tension to articulate the distal tip of the catheter. The present embodiment further contemplates a robotic surgical method for the articulation of a steerable catheter wherein an input device is manipulated to communicate a desired catheter position to a control computer and motor torque commands are outputted to an instrument driver.Type: ApplicationFiled: March 23, 2017Publication date: July 27, 2017Inventors: J. Scot Hart, Francis Macnamara
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Patent number: 9636483Abstract: A robotic surgical system configured for the articulation of a catheter comprises an input device, a control computer, and an instrument driver having at least one motor for displacing the pull-wire of a steerable catheter wherein the control computer is configured to determine the desired motor torque or tension of the pull-wire of a catheter based on user manipulation of the input device. The control computer is configured to output the desired motor torque or tension of the pull-wire to the instrument driver, whereby at least one motor of the instrument driver implements the desired motor torque to cause the desired pull-wire tension to articulate the distal tip of the catheter. The present embodiment further contemplates a robotic surgical method for the articulation of a steerable catheter wherein an input device is manipulated to communicate a desired catheter position to a control computer and motor torque commands are outputted to an instrument driver.Type: GrantFiled: September 28, 2015Date of Patent: May 2, 2017Assignee: Hansen Medical, Inc.Inventors: J. Scot Hart, Francis Macnamara
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Publication number: 20160338783Abstract: A medical robotic system includes a base having a first opening, and a first protrusion next to the first opening, a first rotary member configured for detachably coupling to a component of the medical robotic system in a manner such that the first rotary member is rotatable relative to the base and at least a part of the first rotary member is located in the first opening of the base when the first rotary member is coupled to the system component, and a cover coupled to the base, wherein the first rotary member comprises a first end, a second end, a body extending between the first and second ends, and a flange disposed circumferentially around a part of the body, the flange having a first circumferential slot for receiving the first protrusion.Type: ApplicationFiled: August 4, 2016Publication date: November 24, 2016Inventors: Enrique Romo, J. Scot Hart, JR., Travis Covington
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Publication number: 20160338785Abstract: Various exemplary drive apparatuses and associated methods are disclosed for driving an elongated member, e.g., a catheter, sheath, or guidewire. An exemplary drive apparatus may include a first component and a moveable component, each configured to selectively grip the elongated member. In some examples, the first and moveable components may each include a gripping device. The moveable component may be configured to selectively move axially and rotationally with respect to a support surface to effect axial movement and rotation movement, respectively, of the elongated member with respect to the support surface within a range of motion of the moveable component. The moveable component may be configured to move the elongated member across a predetermined movement having a magnitude greater than the range of motion.Type: ApplicationFiled: August 5, 2016Publication date: November 24, 2016Inventors: ARKADY KOKISH, J. SCOT HART, ALAN YU, ENRIQUE ROMO
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Patent number: 9408669Abstract: Various exemplary drive apparatuses and associated methods are disclosed for driving an elongated member, e.g., a catheter, sheath, or guidewire. An exemplary drive apparatus may include a first component and a moveable component, each configured to selectively grip the elongated member. In some examples, the first and moveable components may each include a gripping device. The moveable component may be configured to selectively move axially and rotationally with respect to a support surface to effect axial movement and rotation movement, respectively, of the elongated member with respect to the support surface within a range of motion of the moveable component. The moveable component may be configured to move the elongated member across a predetermined movement having a magnitude greater than the range of motion.Type: GrantFiled: March 15, 2013Date of Patent: August 9, 2016Assignee: HANSEN MEDICAL, INC.Inventors: Arkady Kokish, J. Scot Hart, Alan Yu, Enrique Romo
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Publication number: 20160015937Abstract: A robotic surgical system configured for the articulation of a catheter comprises an input device, a control computer, and an instrument driver having at least one motor for displacing the pull-wire of a steerable catheter wherein the control computer is configured to determine the desired motor torque or tension of the pull-wire of a catheter based on user manipulation of the input device. The control computer is configured to output the desired motor torque or tension of the pull-wire to the instrument driver, whereby at least one motor of the instrument driver implements the desired motor torque to cause the desired pull-wire tension to articulate the distal tip of the catheter. The present embodiment further contemplates a robotic surgical method for the articulation of a steerable catheter wherein an input device is manipulated to communicate a desired catheter position to a control computer and motor torque commands are outputted to an instrument driver.Type: ApplicationFiled: September 28, 2015Publication date: January 21, 2016Inventors: J. Scot Hart, Francis Macnamara
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Patent number: 9173713Abstract: A robotic surgical system configured for the articulation of a catheter comprises an input device, a control computer, and an instrument driver having at least one motor for displacing the pull-wire of a steerable catheter wherein the control computer is configured to determine the desired motor torque or tension of the pull-wire of a catheter based on user manipulation of the input device. The control computer is configured to output the desired motor torque or tension of the pull-wire to the instrument driver, whereby at least one motor of the instrument driver implements the desired motor torque to cause the desired pull-wire tension to articulate the distal tip of the catheter. The present embodiment further contemplates a robotic surgical method for the articulation of a steerable catheter wherein an input device is manipulated to communicate a desired catheter position to a control computer and motor torque commands are outputted to an instrument driver.Type: GrantFiled: March 14, 2013Date of Patent: November 3, 2015Assignee: HANSEN MEDICAL, INC.Inventors: J. Scot Hart, Francis Macnamara, Neal Tanner, Teresa Miller, Kamini Balaji, Greg Stahler, Chris Carlson, Dave Camarillo, Jeff Alvarez
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Publication number: 20140276939Abstract: Various exemplary drive apparatuses and associated methods are disclosed for driving an elongated member, e.g., a catheter, sheath, or guidewire. An exemplary drive apparatus may include a first component and a moveable component, each configured to selectively grip the elongated member. In some examples, the first and moveable components may each include a gripping device. The moveable component may be configured to selectively move axially and rotationally with respect to a support surface to effect axial movement and rotation movement, respectively, of the elongated member with respect to the support surface within a range of motion of the moveable component. The moveable component may be configured to move the elongated member across a predetermined movement having a magnitude greater than the range of motion.Type: ApplicationFiled: March 15, 2013Publication date: September 18, 2014Applicant: Hansen Medical, Inc.Inventors: Arkady Kokish, J. Scot Hart, Alan Yu, Enrique Romo