Patents by Inventor Aaron Mark Schuelke
Aaron Mark Schuelke 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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Publication number: 20240151975Abstract: A display subsystem for a virtual image generation system for use by an end user comprises a planar waveguide apparatus, an optical fiber, at least one light source configured for emitting light from a distal end of the optical fiber, and a collimation element mounted to a distal end of the optical fiber for collimating light from the optical fiber. The virtual image generation system further comprises a mechanical drive assembly to which the optical fiber is mounted to the drive assembly. The mechanical drive assembly is configured for displacing the distal end of the optical fiber, along with the collimation element, in accordance with a scan pattern. The virtual image generation system further comprises an optical waveguide input apparatus configured for directing the collimated light from the collimation element down the planar waveguide apparatus, such that the planar waveguide apparatus displays image frames to the end user.Type: ApplicationFiled: January 11, 2024Publication date: May 9, 2024Applicant: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Lionel Ernest Edwin, Ivan Yeoh, Aaron Mark Schuelke, William Hudson Welch, John Graham Macnamara
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Patent number: 11906739Abstract: A display subsystem for a virtual image generation system for use by an end user comprises a planar waveguide apparatus, an optical fiber, at least one light source configured for emitting light from a distal end of the optical fiber, and a collimation element mounted to a distal end of the optical fiber for collimating light from the optical fiber. The virtual image generation system further comprises a mechanical drive assembly to which the optical fiber is mounted to the drive assembly. The mechanical drive assembly is configured for displacing the distal end of the optical fiber, along with the collimation element, in accordance with a scan pattern. The virtual image generation system further comprises an optical waveguide input apparatus configured for directing the collimated light from the collimation element down the planar waveguide apparatus, such that the planar waveguide apparatus displays image frames to the end user.Type: GrantFiled: April 20, 2021Date of Patent: February 20, 2024Assignee: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Lionel Ernest Edwin, Ivan Yeoh, Aaron Mark Schuelke, William Hudson Welch, John Graham Macnamara
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Publication number: 20230175866Abstract: An electronics system has a board with a thermal interface having an exposed surface. A thermoelectric device is placed against the thermal interface to heat the board. Heat transfers through the board from a first region where the thermal interface is located to a second region where an electronics device is mounted. The electronics device has a temperature sensor that detects the temperature of the electronics device. The temperature of the electronics device is used to calibrate an accelerometer and a gyroscope in the electronics device. Calibration data includes a temperature and a corresponding acceleration offset and a corresponding angle offset. A field computer simultaneously senses a temperature, an acceleration and an angle from the temperature sensor, accelerometer and gyroscope and adjusts the measured data with the offset data at the same temperature. The field computer provides corrected data to a controlled system.Type: ApplicationFiled: January 30, 2023Publication date: June 8, 2023Applicant: Magic Leap, Inc.Inventors: Cuthbert Martindale ALLEN, Michael Derek ABBOTT, Igor LEVINSKY, Jeffrey JOHNSON, Shimon GOLDSTEIN, Aaron Mark SCHUELKE
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Patent number: 11624929Abstract: An open cell foam is used to create a seal between a camera and a shell piece. The shell piece, camera, seal and a transparent window form a closed front cavity. Because the cavity is closed, dust can remain away from a lens of the camera.Type: GrantFiled: July 23, 2019Date of Patent: April 11, 2023Assignee: Magic Leap, Inc.Inventors: Michael Derek Abbott, Aaron Mark Schuelke, Alejandro Lopez, Bach Nguyen
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Patent number: 11598651Abstract: An electronics system has a board with a thermal interface having an exposed surface. A thermoelectric device is placed against the thermal interface to heat the board. Heat transfers through the board from a first region where the thermal interface is located to a second region where an electronics device is mounted. The electronics device has a temperature sensor that detects the temperature of the electronics device. The temperature of the electronics device is used to calibrate an accelerometer and a gyroscope in the electronics device. Calibration data includes a temperature and a corresponding acceleration offset and a corresponding angle offset. A field computer simultaneously senses a temperature, an acceleration and an angle from the temperature sensor, accelerometer and gyroscope and adjusts the measured data with the offset data at the same temperature. The field computer provides corrected data to a controlled system.Type: GrantFiled: July 23, 2019Date of Patent: March 7, 2023Assignee: Magic Leap, Inc.Inventors: Cuthbert Martindale Allen, Michael Derek Abbott, Igor Levinsky, Jeffrey Johnson, Shimon Goldstein, Aaron Mark Schuelke
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Patent number: 11332407Abstract: A method of fabricating a variable diameter fiber includes providing a fiber optic cable comprising a cladding region, a fiber core, and a plurality of sacrificial regions disposed in the cladding region and focusing a laser beam at a series of predetermined locations inside the fiber optic cable. The method also includes creating a series of damage sites associated with the series of predetermined locations, wherein the series of damage sites define a variable diameter profile and a latticework in the cladding region of the fiber optic cable. The method further includes exposing the fiber optic cable to an etchant solution, preferentially etching the series of damage sites, and separating peripheral portions of the fiber optic cable to release the variable diameter fiber.Type: GrantFiled: June 18, 2020Date of Patent: May 17, 2022Assignee: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Mathew D. Watson, Charles David Melville, An-Shyang Chu, Timothy Mark Dalrymple, Vaibhav Mathur, Alejandro Lopez, Aaron Mark Schuelke
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Publication number: 20210325682Abstract: An open cell foam is used to create a seal between a camera and a shell piece. The shell piece, camera, seal and a transparent window form a closed front cavity. Because the cavity is closed, dust can remain away from a lens of the camera.Type: ApplicationFiled: July 23, 2019Publication date: October 21, 2021Applicant: Magic Leap, Inc.Inventors: Michael Derek ABBOTT, Aaron Mark SCHUELKE, Alejandro LOPEZ, Bach NGUYEN
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Publication number: 20210239992Abstract: A display subsystem for a virtual image generation system for use by an end user comprises a planar waveguide apparatus, an optical fiber, at least one light source configured for emitting light from a distal end of the optical fiber, and a collimation element mounted to a distal end of the optical fiber for collimating light from the optical fiber. The virtual image generation system further comprises a mechanical drive assembly to which the optical fiber is mounted to the drive assembly. The mechanical drive assembly is configured for displacing the distal end of the optical fiber, along with the collimation element, in accordance with a scan pattern. The virtual image generation system further comprises an optical waveguide input apparatus configured for directing the collimated light from the collimation element down the planar waveguide apparatus, such that the planar waveguide apparatus displays image frames to the end user.Type: ApplicationFiled: April 20, 2021Publication date: August 5, 2021Applicant: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Lionel Ernest Edwin, Ivan Yeoh, Aaron Mark Schuelke, William Hudson Welch, John Graham Macnamara
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Publication number: 20210164804Abstract: An electronics system has a board with a thermal interface having an exposed surface. A thermoelectric device is placed against the thermal interface to heat the board. Heat transfers through the board from a first region where the thermal interface is located to a second region where an electronics device is mounted. The electronics device has a temperature sensor that detects the temperature of the electronics device. The temperature of the electronics device is used to calibrate an accelerometer and a gyroscope in the electronics device. Calibration data includes a temperature and a corresponding acceleration offset and a corresponding angle offset. A field computer simultaneously senses a temperature, an acceleration and an angle from the temperature sensor, accelerometer and gyroscope and adjusts the measured data with the offset data at the same temperature. The field computer provides corrected data to a controlled system.Type: ApplicationFiled: July 23, 2019Publication date: June 3, 2021Applicant: Magic Leap, Inc.Inventors: Cuthbert Martindale ALLEN, Michael Derek ABBOTT, Igor LEVINSKY, Jeffrey JOHNSON, Shimon GOLDSTEIN, Aaron Mark SCHUELKE
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Patent number: 11016298Abstract: A display subsystem for a virtual image generation system for use by an end user comprises a planar waveguide apparatus, an optical fiber, at least one light source configured for emitting light from a distal end of the optical fiber, and a collimation element mounted to a distal end of the optical fiber for collimating light from the optical fiber. The virtual image generation system further comprises a mechanical drive assembly to which the optical fiber is mounted to the drive assembly. The mechanical drive assembly is configured for displacing the distal end of the optical fiber, along with the collimation element, in accordance with a scan pattern. The virtual image generation system further comprises an optical waveguide input apparatus configured for directing the collimated light from the collimation element down the planar waveguide apparatus, such that the planar waveguide apparatus displays image frames to the end user.Type: GrantFiled: October 5, 2016Date of Patent: May 25, 2021Assignee: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Lionel Ernest Edwin, Ivan Yeoh, Aaron Mark Schuelke, William Hudson Welch, John Graham Macnamara
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Publication number: 20200385308Abstract: A method of fabricating a variable diameter fiber includes providing a fiber optic cable comprising a cladding region, a fiber core, and a plurality of sacrificial regions disposed in the cladding region and focusing a laser beam at a series of predetermined locations inside the fiber optic cable. The method also includes creating a series of damage sites associated with the series of predetermined locations, wherein the series of damage sites define a variable diameter profile and a latticework in the cladding region of the fiber optic cable. The method further includes exposing the fiber optic cable to an etchant solution, preferentially etching the series of damage sites, and separating peripheral portions of the fiber optic cable to release the variable diameter fiber.Type: ApplicationFiled: June 18, 2020Publication date: December 10, 2020Applicant: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Mathew D. Watson, Charles David Melville, An-Shyang Chu, Timothy Mark Dalrymple, Vaibhav Mathur, Alejandro Lopez, Aaron Mark Schuelke
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Patent number: 10723653Abstract: A method of fabricating a variable diameter fiber includes providing a fiber optic cable, focusing a laser beam at a predetermined location inside the fiber optic cable, and creating a damage site at the predetermined location. The method also includes focusing the laser beam at a series of additional predetermined locations inside the fiber optic cable and creating a plurality of additional damage sites at the additional predetermined locations. The damage site and the additional damage sites define a variable diameter profile. The method further includes exposing the fiber optic cable to an etchant solution, preferentially etching the damage site and the plurality of additional damage sites, and separating a portion of the fiber optic cable to release the variable diameter fiber.Type: GrantFiled: December 21, 2017Date of Patent: July 28, 2020Assignee: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Mathew D. Watson, Charles David Melville, An-Shyang Chu, Timothy Mark Dalrymple, Vaibhav Mathur, Alejandro Lopez, Aaron Mark Schuelke
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Patent number: 10254536Abstract: A display subsystem for a virtual image generation system. The display subsystem comprises a planar waveguide apparatus, and an optical fiber having a distal tip affixed relative to the planar waveguide apparatus, and an aperture proximal to the distal tip. The display subsystem further comprises at least one light source coupled the optical fiber and configured for emitting light from the aperture of the optical fiber, and a mechanical drive assembly to which the optical fiber is mounted to the drive assembly. The mechanical drive assembly is configured for displacing the aperture of the optical fiber in accordance with a scan pattern. The display subsystem further comprises an optical waveguide input apparatus configured for directing the light from the aperture of the optical fiber down the planar waveguide apparatus, such that the planar waveguide apparatus displays one or more image frames to the end user.Type: GrantFiled: July 19, 2016Date of Patent: April 9, 2019Assignee: MAGIC LEAP, INC.Inventors: Ivan L. Yeoh, Lionel Ernest Edwin, Aaron Mark Schuelke
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Patent number: 10176639Abstract: A virtual image generation system and method is provided. A plurality of synthetic image frames of the three-dimensional scene are rendered, and sequentially displayed to an end user. Each of the displayed image frames has a non-uniform resolution distribution.Type: GrantFiled: July 15, 2016Date of Patent: January 8, 2019Assignee: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Lionel Ernest Edwin, Ivan L. Yeoh, Aaron Mark Schuelke, Samuel A. Miller
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Publication number: 20180179106Abstract: A method of fabricating a variable diameter fiber includes providing a fiber optic cable, focusing a laser beam at a predetermined location inside the fiber optic cable, and creating a damage site at the predetermined location. The method also includes focusing the laser beam at a series of additional predetermined locations inside the fiber optic cable and creating a plurality of additional damage sites at the additional predetermined locations. The damage site and the additional damage sites define a variable diameter profile. The method further includes exposing the fiber optic cable to an etchant solution, preferentially etching the damage site and the plurality of additional damage sites, and separating a portion of the fiber optic cable to release the variable diameter fiber.Type: ApplicationFiled: December 21, 2017Publication date: June 28, 2018Applicant: Magic Leap, Inc.Inventors: Brian T. SCHOWENGERDT, Mathew D. WATSON, Charles David MELVILLE, An-Shyang CHU, Timothy Mark DALRYMPLE, Vaibhav MATHUR, Alejandro LOPEZ, Aaron Mark SCHUELKE
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Publication number: 20170097506Abstract: A display subsystem for a virtual image generation system for use by an end user comprises a planar waveguide apparatus, an optical fiber, at least one light source configured for emitting light from a distal end of the optical fiber, and a collimation element mounted to a distal end of the optical fiber for collimating light from the optical fiber. The virtual image generation system further comprises a mechanical drive assembly to which the optical fiber is mounted to the drive assembly. The mechanical drive assembly is configured for displacing the distal end of the optical fiber, along with the collimation element, in accordance with a scan pattern. The virtual image generation system further comprises an optical waveguide input apparatus configured for directing the collimated light from the collimation element down the planar waveguide apparatus, such that the planar waveguide apparatus displays image frames to the end user.Type: ApplicationFiled: October 5, 2016Publication date: April 6, 2017Applicant: Magic Leap, Inc.Inventors: Brian T. Schowengerdt, Lionel Ernest Edwin, Ivan Yeoh, Aaron Mark Schuelke, William Hudson Welch, John Graham Macnamara
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Publication number: 20170038579Abstract: A display subsystem for a virtual image generation system. The display subsystem comprises a planar waveguide apparatus, and an optical fiber having a distal tip affixed relative to the planar waveguide apparatus, and an aperture proximal to the distal tip. The display subsystem further comprises at least one light source coupled the optical fiber and configured for emitting light from the aperture of the optical fiber, and a mechanical drive assembly to which the optical fiber is mounted to the drive assembly. The mechanical drive assembly is configured for displacing the aperture of the optical fiber in accordance with a scan pattern. The display subsystem further comprises an optical waveguide input apparatus configured for directing the light from the aperture of the optical fiber down the planar waveguide apparatus, such that the planar waveguide apparatus displays one or more image frames to the end user.Type: ApplicationFiled: July 19, 2016Publication date: February 9, 2017Applicant: MAGIC LEAP, INC.Inventors: Ivan L. Yeoh, Lionel Ernest Edwin, Aaron Mark Schuelke
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Publication number: 20160328884Abstract: A virtual image generation system and method is provided. A plurality of synthetic image frames of the three-dimensional scene are rendered, and sequentially displayed to an end user. Each of the displayed image frames has a non-uniform resolution distribution.Type: ApplicationFiled: July 15, 2016Publication date: November 10, 2016Applicant: MAGIC LEAP, INC.Inventors: Brian T. Schowengerdt, Lionel Ernest Edwin, Ivan L. Yeoh, Aaron Mark Schuelke, Samuel A. Miller