Patents by Inventor Tammy Kee-Wai LEE
Tammy Kee-Wai LEE 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: 11826208Abstract: A surgical imaging system is described. The system includes first and second optical assemblies. Each optical assembly defines a respective optical axis, and each includes a respective set of one or more optics for adjusting field-of-view (FOV) and focus and a respective camera for capturing an image. The system includes a controller for controlling the optical assemblies and for switching the surgical imaging system between a coupled configuration and an uncoupled configuration. In the coupled configuration, the first optical assemblies are controlled to adjust the respective sets of optics and/or the respective optical axes in dependence on each other. In the uncoupled configuration, the optical assemblies are controlled to adjust the respective sets of optics, and the respective optical axes independently of each other.Type: GrantFiled: November 10, 2020Date of Patent: November 28, 2023Inventors: Michael Frank Gunter Wood, Cameron Anthony Piron, Tammy Kee-Wai Lee, Kamyar Abhari, Kai Michael Hynna
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Patent number: 11771325Abstract: A multispectral synchronized imaging system is provided. A multispectral light source of the system comprises: blue, green and red LEDs, and one or more non-visible light sources, each being independently addressable and configured to emit, in a sequence: at least visible white light, and non-visible light in one or more given non-visible frequency ranges. The system further comprises a camera and an optical filter arranged to filter light received at the camera, by: transmitting visible light from the LEDs; filter out non-visible light from the non-visible light sources; and otherwise transmit excited light emitted by a tissue sample excited by non-visible light. Images acquired by the camera are output to a display device. A control unit synchronizes acquisition of respective images at the camera for each of blue light, green light, visible white light, and excited light received at the camera, as reflected by the tissue sample.Type: GrantFiled: April 21, 2021Date of Patent: October 3, 2023Inventors: Ze Shan Yao, Piotr Kuchnio, Michael Frank Gunter Wood, Tammy Kee-Wai Lee, Yanhui Bai, Michael Peter Bulk, Christopher Thomas Jamieson
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Patent number: 11672609Abstract: Methods and systems for outputting depth data during a medical procedure on a patient. Depth data is outputted, representing at least one of relative depth data and general depth data. Tracking information about the position and orientation of a medical instrument and depth information about variations in depth over a site of interest are used. Relative depth data represents the depth information relative to the position and orientation of the instrument. General depth data represents the depth information over the site of interest independently of the position and orientation of the instrument.Type: GrantFiled: November 10, 2020Date of Patent: June 13, 2023Inventors: Kamyar Abhari, Gal Sela, Michael Frank Gunter Wood, Kai Michael Hynna, Kelly Noel Dyer, Tammy Kee-wai Lee
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Patent number: 11648064Abstract: An optical imaging system for imaging a target during a medical procedure, the imaging system involving an optical assembly having moveable zoom optics and moveable focus optics, a zoom actuator and a focus actuator for positioning the zoom and focus optics, respectively, a controller for controlling the zoom and focus actuators independently in response to received control input, a camera for capturing an image of the target from the optical assembly, the system capable of performing autofocus during a medical procedure.Type: GrantFiled: June 7, 2022Date of Patent: May 16, 2023Inventors: Tammy Kee-Wai Lee, Michael Frank Gunter Wood, Cameron Anthony Piron, Brent Andrew Bailey, Sagar Saxena, Sean Adrian Conroy, Kamyar Abhari, Kai Michael Hynna, Gal Sela, Kelly Noel Dyer, Joshua Lee Richmond
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Patent number: 11506876Abstract: Methods and systems for controlling a surgical microscope. Moveable optics of the surgical microscope are controlled using two sets of control parameters, to reduce jitter and image instability. Shifts in the image due to changes in temperature or due to the use of optical filter can also be compensated. Misalignment between the mechanical axis and the optical axis of the surgical microscope can also be corrected.Type: GrantFiled: March 28, 2021Date of Patent: November 22, 2022Assignee: Synaptive Medical Inc.Inventors: Tammy Kee-Wai Lee, William La, Paul Quevedo, Aryeh Benjamin Taub, Yusuf Bismilla, Sam Anthony Leitch, Yuri Alexander Kuzyk, Ze Shan Yao, Michael Frank Gunter Wood
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Publication number: 20220296314Abstract: An optical imaging system for imaging a target during a medical procedure, the imaging system involving an optical assembly having moveable zoom optics and moveable focus optics, a zoom actuator and a focus actuator for positioning the zoom and focus optics, respectively, a controller for controlling the zoom and focus actuators independently in response to received control input, a camera for capturing an image of the target from the optical assembly, the system capable of performing autofocus during a medical procedure.Type: ApplicationFiled: June 7, 2022Publication date: September 22, 2022Applicant: SYNAPTIVE MEDICAL INC.Inventors: Tammy Kee-Wai LEE, Michael Frank Gunter Wood, Cameron Anthony PIRON, Brent Andrew BAILEY, Sagar SAXENA, Sean Adrian CONROY, Kamyar ABHARI, Kai Michael HYNNA, Gal SELA, Kelly Noel DYER, Joshua Lee RICHMOND
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Patent number: 11376081Abstract: An optical imaging system for imaging a target during a medical procedure, the imaging system involving an optical assembly having moveable zoom optics and moveable focus optics, a zoom actuator and a focus actuator for positioning the zoom and focus optics, respectively, a controller for controlling the zoom and focus actuators independently in response to received control input, a camera for capturing an image of the target from the optical assembly, the system capable of performing autofocus during a medical procedure.Type: GrantFiled: November 24, 2020Date of Patent: July 5, 2022Assignee: SYNAPTIVE MEDICAL INC.Inventors: Tammy Kee-Wai Lee, Michael Frank Gunter Wood, Cameron Anthony Piron, Brent Andrew Bailey, Sagar Saxena, Sean Adrian Conroy, Kamyar Abhari, Kai Michael Hynna, Gal Sela, Kelly Noel Dyer, Joshua Lee Richmond
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Publication number: 20220113526Abstract: A surgical microscope system and methods involving: an optical assembly operable in response to a selected operation mode, the optical assembly having adjustable optics; a controller coupled with the optical assembly, the controller configured to: select an operation mode corresponding to at least one phase of the medical procedure and defining a setting for adjusting an adjustable optics; control the optical assembly to adjust an adjustable optics according to a setting; select another operation mode if at least one of an abnormal phase and an emergency phase of the medical procedure is determined to exist, the other mode of operation corresponding to another setting for adjusting the adjustable optics, the other setting having at least one of a magnification setting and a focus setting; and control the optical assembly to adjust the adjustable optics according to the other setting.Type: ApplicationFiled: December 20, 2021Publication date: April 14, 2022Applicant: SYNAPTIVE MEDICAL INC.Inventors: Siu Wai Jacky MAK, Tammy Kee-Wai LEE
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Publication number: 20220031422Abstract: Imaging systems and methods involving a videoscope including cameras; a filter feature in optical communication with the cameras, the filter feature configured to independently filter or tandemly filter light from each camera; an independently adjustable aperture in optical communication with the filter feature, the independently adjustable aperture configured to limit transmission of filtered light; independently adjustable zoom features in optical communication with the independently adjustable aperture, the independently adjustable zoom features including corresponding independently adjustable zoom channels, and each independently adjustable zoom feature configured to independently zoom independently limited filtered light; a prism in optical communication with the independently adjustable zoom channels, the prism configured to redirect independently zoomed, independently limited, filtered light; and a shared focus feature in optical communication with the prism, the shared focus feature comprising a shareType: ApplicationFiled: October 15, 2021Publication date: February 3, 2022Applicant: SYNAPTIVE MEDICAL INC.Inventors: Michael Frank Gunter Wood, Joshua Lee Richmond, Tammy Kee-Wai Lee, William La
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Publication number: 20210235991Abstract: A multispectral synchronized imaging system is provided. A multispectral light source of the system comprises: blue, green and red LEDs, and one or more non-visible light sources, each being independently addressable and configured to emit, in a sequence: at least visible white light, and non-visible light in one or more given non-visible frequency ranges. The system further comprises a camera and an optical filter arranged to filter light received at the camera, by: transmitting visible light from the LEDs; filter out non-visible light from the non-visible light sources; and otherwise transmit excited light emitted by a tissue sample excited by non-visible light. Images acquired by the camera are output to a display device. A control unit synchronizes acquisition of respective images at the camera for each of blue light, green light, visible white light, and excited light received at the camera, as reflected by the tissue sample.Type: ApplicationFiled: April 21, 2021Publication date: August 5, 2021Applicant: SYNAPTIVE MEDICAL INC.Inventors: Ze Shan YAO, Piotr KUCHNIO, Michael Frank Gunter WOOD, Tammy Kee-Wai LEE, Yanhui BAI, Michael Peter BULK, Christopher Thomas JAMIESON
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Publication number: 20210228283Abstract: Methods and systems for outputting depth data during a medical procedure on a patient. Depth data is outputted, representing at least one of relative depth data and general depth data. Tracking information about the position and orientation of a medical instrument and depth information about variations in depth over a site of interest are used. Relative depth data represents the depth information relative to the position and orientation of the instrument. General depth data represents the depth information over the site of interest independently of the position and orientation of the instrument.Type: ApplicationFiled: November 10, 2020Publication date: July 29, 2021Inventors: Kamyar Abhari, Gal Sela, Michael Frank Gunter Wood, Kai Michael Hynna, Kelly Noel Dyer, Tammy Kee-wai Lee
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Publication number: 20210215919Abstract: Methods and systems for controlling a surgical microscope. Moveable optics of the surgical microscope are controlled using two sets of control parameters, to reduce jitter and image instability. Shifts in the image due to changes in temperature or due to the use of optical filter can also be compensated. Misalignment between the mechanical axis and the optical axis of the surgical microscope can also be corrected.Type: ApplicationFiled: March 28, 2021Publication date: July 15, 2021Inventors: Tammy Kee-Wai LEE, William LA, Paul QUEVEDO, Aryeh Benjamin TAUB, Yusuf BISMILLA, Sam Anthony LEITCH, Yuri Alexander KUZYK, Ze Shan YAO, Michael Frank Gunter WOOD
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Patent number: 11013414Abstract: A multispectral synchronized imaging system is provided. A multispectral light source of the system includes: blue, green and red LEDs, and one or more non-visible light sources, each being independently addressable and configured to emit, in a sequence: at least visible white light, and non-visible light in one or more given non-visible frequency ranges. The system further includes a camera and an optical filter arranged to filter light received at the camera, by: transmitting visible light from the LEDs; filter out non-visible light from the non-visible light sources; and otherwise transmit excited light emitted by a tissue sample excited by non-visible light. Images acquired by the camera are output to a display device. A control unit synchronizes acquisition of respective images at the camera for each of blue light, green light, visible white light, and excited light received at the camera, as reflected by the tissue sample.Type: GrantFiled: May 10, 2016Date of Patent: May 25, 2021Assignee: SYNAPTIVE MEDICAL INC.Inventors: Ze Shan Yao, Piotr Kuchnio, Michael Frank Gunter Wood, Tammy Kee-Wai Lee, Yanhui Bai, Michael Peter Bulk, Christopher Thomas Jamieson
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Publication number: 20210128266Abstract: A surgical imaging system is described. The system includes first and second optical assemblies. Each optical assembly defines a respective optical axis, and each includes a respective set of one or more optics for adjusting field-of-view (FOV) and focus and a respective camera for capturing an image. The system includes a controller for controlling the optical assemblies and for switching the surgical imaging system between a coupled configuration and an uncoupled configuration. In the coupled configuration, the first optical assemblies are controlled to adjust the respective sets of optics and/or the respective optical axes in dependence on each other. In the uncoupled configuration, the optical assemblies are controlled to adjust the respective sets of optics, and the respective optical axes independently of each other.Type: ApplicationFiled: November 10, 2020Publication date: May 6, 2021Inventors: Michael Frank Gunter WOOD, Cameron Anthony Piron, Tammy Kee-Wai Lee, Kamyar Abhari, Kai Michael Hynna
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Patent number: 10976531Abstract: Methods and systems for controlling a surgical microscope. Moveable optics of the surgical microscope are controlled using two sets of control parameters, to reduce jitter and image instability. Shifts in the image due to changes in temperature or due to the use of optical filter can also be compensated. Misalignment between the mechanical axis and the optical axis of the surgical microscope can also be corrected.Type: GrantFiled: November 15, 2019Date of Patent: April 13, 2021Assignee: Synaptive Medical Inc.Inventors: Tammy Kee-Wai Lee, William La, Paul Quevedo, Aryeh Benjamin Taub, Yusuf Bismilla, Sam Anthony Leitch, Yuri Alexander Kuzyk, Ze Shan Yao, Michael Frank Gunter Wood
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Publication number: 20210077200Abstract: An optical imaging system for imaging a target during a medical procedure, the imaging system involving an optical assembly having moveable zoom optics and moveable focus optics, a zoom actuator and a focus actuator for positioning the zoom and focus optics, respectively, a controller for controlling the zoom and focus actuators independently in response to received control input, a camera for capturing an image of the target from the optical assembly, the system capable of performing autofocus during a medical procedure.Type: ApplicationFiled: November 24, 2020Publication date: March 18, 2021Inventors: Tammy Kee-Wai LEE, Michael Frank Gunter WOOD, Cameron Anthony PIRON, Brent Andrew BAILEY, Sagar SAXENA, Sean Adrian CONROY, Kamyar ABHARI, Kai Michael HYNNA, Gal SELA, Kelly Noel DYER, Joshua Lee RICHMOND
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Patent number: 10925675Abstract: An optical imaging system for imaging a target during a medical procedure. The imaging system includes an optical assembly including moveable zoom optics and moveable focus optics. The system includes a zoom actuator and a focus actuator for positioning the zoom and focus optics, respectively. The system includes a controller for controlling the zoom and focus actuators independently in response to received control input. The system includes a camera for capturing an image of the target from the optical assembly. The system may be capable of performing autofocus during a medical procedure.Type: GrantFiled: September 24, 2015Date of Patent: February 23, 2021Assignee: SYNAPTIVE MEDICAL INC.Inventors: Tammy Kee-Wai Lee, Michael Frank Gunter Wood, Cameron Anthony Piron, Brent Andrew Bailey, Sagar Saxena, Sean Adrian Conroy, Kamyar Abhari, Kai Michael Hynna, Gal Sela, Kelly Noel Dyer, Joshua Lee Richmond
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Patent number: 10828125Abstract: A surgical imaging system is described. The system includes first and second optical assemblies. Each optical assembly defines a respective optical axis, and each includes a respective set of one or more optics for adjusting field-of-view (FOV) and focus and a respective camera for capturing an image. The system includes a controller for controlling the optical assemblies and for switching the surgical imaging system between a coupled configuration and an uncoupled configuration. In the coupled configuration, the first optical assemblies are controlled to adjust the respective sets of optics and/or the respective optical axes in dependence on each other. In the uncoupled configuration, the optical assemblies are controlled to adjust the respective sets of optics, and the respective optical axes independently of each other.Type: GrantFiled: November 3, 2015Date of Patent: November 10, 2020Assignee: Synaptive Medical (Barbados) Inc.Inventors: Michael Frank Gunter Wood, Cameron Anthony Piron, Tammy Kee-Wai Lee, Kamyar Abhari, Kai Michael Hynna
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Patent number: 10828114Abstract: Methods and systems for outputting depth data during a medical procedure on a patient. Depth data is outputted, representing at least one of relative depth data and general depth data. Tracking information about the position and orientation of a medical instrument and depth information about variations in depth over a site of interest are used. Relative depth data represents the depth information relative to the position and orientation of the instrument. General depth data represents the depth information over the site of interest independently of the position and orientation of the instrument.Type: GrantFiled: October 21, 2016Date of Patent: November 10, 2020Assignee: Synaptive Medical (Barbados) Inc.Inventors: Kamyar Abhari, Gal Sela, Michael Frank Gunter Wood, Kai Michael Hynna, Kelly Noel Dyer, Tammy Kee-wai Lee
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Patent number: 10764560Abstract: A system for producing 3D video using first and second cameras on first and second axes. The second camera has a field of view (FOV) overlapping with the first camera's FOV. The second axis is at a convergence angle relative to the first axis. A control computer changes the inter-camera distance by effectively moving the second camera laterally, and changes convergence angle by effectively rotating the second camera. The control computer automatically calculates the inter-camera distance and convergence angle based on the distance of a user to the display screen, working distance of the cameras, zoom settings, and size of the screen, and effectively moves the second camera accordingly. A keystone correction is performed to account for the camera projections, the frames are rotationally aligned, and the corrected/aligned frames are combined to produce a 3D image frame that is displayed on a 3D display screen.Type: GrantFiled: January 31, 2019Date of Patent: September 1, 2020Inventors: Piotr Kuchnio, Christopher Thomas Jamieson, Siu Wai Jacky Mak, Tammy Kee-Wai Lee, Yusuf Bismilla, Sam Anthony Leitch