Patents by Inventor Bryce Jason REMESCH
Bryce Jason REMESCH 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: 20240130334Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for self-calibrating ultrasonic removal of sea lice. In some implementations, a method includes generating, by transducers distributed in a sea lice treatment station, a first set of ultrasonic signals, detecting a second set of ultrasonic signals in response to propagation of the first set of ultrasonic signals through water, determining propagation parameters of the sea lice treatment station based on the second set of ultrasonic signals that were detected, obtaining an image of a sea louse on a fish in the sea lice treatment station, determining, from the image, a location of the sea louse in the sea lice treatment station, and generating a third set of ultrasonic signals that focuses energy at the sea louse.Type: ApplicationFiled: May 16, 2023Publication date: April 25, 2024Inventors: Grace Calvert Young, Matthew Aaron Knoll, Bryce Jason Remesch, Peter Kimball
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Publication number: 20240107985Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for a calibration target for ultrasonic removal of ectoparasites from fish. In some implementations, the calibration target includes a fish-shaped structure, sensors positioned at different locations of the fish-shaped structure, a processor that receives sensor values from the sensors, and a transmitter that outputs sensor data from the calibration target based on the sensor values.Type: ApplicationFiled: May 26, 2023Publication date: April 4, 2024Inventors: Grace Calvert Young, Bryce Jason Remesch, Matthew Aaron Knoll
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Patent number: 11864535Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for obtaining initial parameters for ultrasonic transducers around a calibration target. The calibration target can include a fish-shaped structure, sensors placed at different locations of the fish-shaped structure, a processor that receives sensor values from the sensors, and a transmitter that outputs sensor data from the calibration target based on the sensor values. The calibration target can be fixed at a particular position relative to the ultrasonic transducers by a filament coupled to both the calibration target and a support structure. Sensor data can be obtained from the calibration target at the particular position relative to the ultrasonic transducers, and relative locations of the sensors can be determined. Parameters for the ultrasonic transducers around the calibration target can be adjusted based on the sensor data and the respective locations of the sensors.Type: GrantFiled: December 21, 2021Date of Patent: January 9, 2024Assignee: X Development LLCInventors: Grace Calvert Young, Matthew Aaron Knoll, Bryce Jason Remesch
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Patent number: 11700839Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for a calibration target for ultrasonic removal of ectoparasites from fish. In some implementations, the calibration target includes a fish-shaped structure, sensors positioned at different locations of the fish-shaped structure, a processor that receives sensor values from the sensors, and a transmitter that outputs sensor data from the calibration target based on the sensor values.Type: GrantFiled: September 1, 2021Date of Patent: July 18, 2023Assignee: X. DevelopmentInventors: Grace Calvert Young, Bryce Jason Remesch, Matthew Aaron Knoll
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Patent number: 11690359Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for self-calibrating ultrasonic removal of sea lice. In some implementations, a method includes generating, by transducers distributed in a sea lice treatment station, a first set of ultrasonic signals, detecting a second set of ultrasonic signals in response to propagation of the first set of ultrasonic signals through water, determining propagation parameters of the sea lice treatment station based on the second set of ultrasonic signals that were detected, obtaining an image of a sea louse on a fish in the sea lice treatment station, determining, from the image, a location of the sea louse in the sea lice treatment station, and generating a third set of ultrasonic signals that focuses energy at the sea louse.Type: GrantFiled: October 21, 2022Date of Patent: July 4, 2023Assignee: X Development LLCInventors: Grace Calvert Young, Matthew Aaron Knoll, Bryce Jason Remesch, Peter Kimball
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Publication number: 20230189766Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for obtaining initial parameters for ultrasonic transducers around a calibration target. The calibration target can include a fish-shaped structure, sensors placed at different locations of the fish-shaped structure, a processor that receives sensor values from the sensors, and a transmitter that outputs sensor data from the calibration target based on the sensor values. The calibration target can be fixed at a particular position relative to the ultrasonic transducers by a filament coupled to both the calibration target and a support structure. Sensor data can be obtained from the calibration target at the particular position relative to the ultrasonic transducers, and relative locations of the sensors can be determined. Parameters for the ultrasonic transducers around the calibration target can be adjusted based on the sensor data and the respective locations of the sensors.Type: ApplicationFiled: December 21, 2021Publication date: June 22, 2023Inventors: Grace Calvert Young, Matthew Aaron Knoll, Bryce Jason Remesch
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Publication number: 20230067723Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for a calibration target for ultrasonic removal of ectoparasites from fish. In some implementations, the calibration target includes a fish-shaped structure, sensors positioned at different locations of the fish-shaped structure, a processor that receives sensor values from the sensors, and a transmitter that outputs sensor data from the calibration target based on the sensor values.Type: ApplicationFiled: September 1, 2021Publication date: March 2, 2023Inventors: Grace Calvert Young, Bryce Jason Remesch, Matthew Aaron Knoll
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Publication number: 20230039087Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for self-calibrating ultrasonic removal of sea lice. In some implementations, a method includes generating, by transducers distributed in a sea lice treatment station, a first set of ultrasonic signals, detecting a second set of ultrasonic signals in response to propagation of the first set of ultrasonic signals through water, determining propagation parameters of the sea lice treatment station based on the second set of ultrasonic signals that were detected, obtaining an image of a sea louse on a fish in the sea lice treatment station, determining, from the image, a location of the sea louse in the sea lice treatment station, and generating a third set of ultrasonic signals that focuses energy at the sea louse.Type: ApplicationFiled: October 21, 2022Publication date: February 9, 2023Inventors: Grace Calvert Young, Matthew Aaron Knoll, Bryce Jason Remesch, Peter Kimball
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Patent number: 11490601Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for self-calibrating ultrasonic removal of sea lice. In some implementations, a method includes generating, by transducers distributed in a sea lice treatment station, a first set of ultrasonic signals, detecting a second set of ultrasonic signals in response to propagation of the first set of ultrasonic signals through water, determining propagation parameters of the sea lice treatment station based on the second set of ultrasonic signals that were detected, obtaining an image of a sea louse on a fish in the sea lice treatment station, determining, from the image, a location of the sea louse in the sea lice treatment station, and generating a third set of ultrasonic signals that focuses energy at the sea louse.Type: GrantFiled: December 23, 2020Date of Patent: November 8, 2022Assignee: X Development LLCInventors: Grace Calvert Young, Matthew Aaron Knoll, Bryce Jason Remesch, Peter Kimball
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Publication number: 20220192160Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for self-calibrating ultrasonic removal of sea lice. In some implementations, a method includes generating, by transducers distributed in a sea lice treatment station, a first set of ultrasonic signals, detecting a second set of ultrasonic signals in response to propagation of the first set of ultrasonic signals through water, determining propagation parameters of the sea lice treatment station based on the second set of ultrasonic signals that were detected, obtaining an image of a sea louse on a fish in the sea lice treatment station, determining, from the image, a location of the sea louse in the sea lice treatment station, and generating a third set of ultrasonic signals that focuses energy at the sea louse.Type: ApplicationFiled: December 23, 2020Publication date: June 23, 2022Inventors: Grace Calvert Young, Matthew Aaron Knoll, Bryce Jason Remesch, Peter Kimball
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Patent number: 9514378Abstract: Three-dimensional imagers have conventionally been constrained by size, weight, and power (“SWaP”) limitations, readout circuitry bottlenecks, and the inability to image in sunlit environments. As described herein, an imager can illuminate a scene with spatially and temporally modulated light comprising a viewpoint-invariant pattern. The imager can detect diffuse reflections from the illuminated scene to produce a first image. The first image is background-corrected and compared with respect to a known reference image to produce a depth image. The imager can perform in sunlit environments and has improved SWaP and signal-to-noise (SNR) characteristics over existing technologies.Type: GrantFiled: September 16, 2015Date of Patent: December 6, 2016Assignee: MASSACHUSETTS INSTITUTE OF TECHNOLOGYInventors: Nicholas Lloyd Armstrong-Crews, Bryce Jason Remesch
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Publication number: 20160004920Abstract: Three-dimensional imagers have conventionally been constrained by size, weight, and power (“SWaP”) limitations, readout circuitry bottlenecks, and the inability to image in sunlit environments. As described herein, an imager can illuminate a scene with spatially and temporally modulated light comprising a viewpoint-invariant pattern. The imager can detect diffuse reflections from the illuminated scene to produce a first image. The first image is background-corrected and compared with respect to a known reference image to produce a depth image. The imager can perform in sunlit environments and has improved SWaP and signal-to-noise (SNR) characteristics over existing technologies.Type: ApplicationFiled: September 16, 2015Publication date: January 7, 2016Inventors: Nicholas Lloyd ARMSTRONG-CREWS, Bryce Jason REMESCH