Patents by Inventor Ralph Shepard
Ralph Shepard 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: 12038540Abstract: The present disclosure relates to optical systems and methods of their operation. An example optical system includes an optical component and one or more light sources configured to emit a light signal. The light signal interacts with the optical component so as to provide an interaction light signal. The optical system also includes a detector configured to detect at least a portion of the interaction light signal as a detected light signal. The optical system additionally includes a controller configured to carry out operations including causing the one or more light sources to emit the light signal and receiving the detected light signal from the detector. The operations also include determining, based on the detected light signal, that one or more defects are associated with the optical component.Type: GrantFiled: May 8, 2023Date of Patent: July 16, 2024Assignee: Waymo LLCInventors: Ralph Shepard, Pierre-Yves Droz, Matthew Last, Bryce Remesch
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Publication number: 20240175728Abstract: A system may include a first sensor of a first type and a second sensor of a second different type and having a detector. A field of view of the second sensor may be formed by a plurality of regions of interest (ROIs) defined by the detector. Control circuitry of the system may be configured to perform operations including obtaining, from the first sensor, first sensor data representing an environment, and determining, based on the first sensor data, information associated with a feature of interest within the environment. The operations may also include determining, based on the information, a particular ROI that corresponds to an expected position of the feature at a later time, obtaining a plurality of ROI sensor data from the particular ROI instead of obtaining full-resolution sensor data, and analyzing the plurality of ROI sensor data to determine one or more attributes of the feature.Type: ApplicationFiled: February 2, 2024Publication date: May 30, 2024Inventors: Nirav Dharia, Giulia Guidi, Ralph Shepard, Vlad Cardei, Lucian Ion
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Publication number: 20240159885Abstract: The present disclosure relates to multi-channel optical transmitter modules, lidar systems, and methods that involve micromirror devices. An example optical transmitter module includes at least one light-emitter device and a plurality of micromirror devices optically-coupled to the at least one light-emitter device. The at least one light-emitter device is configured to emit respective light beams toward an environment via the micromirror devices. The micromirror devices are configured to deflect the light beams. The optical transmitter module also includes a controller having at least one processor and a memory. The controller is configured to carry out operations. The operations include receiving information indicative of a retroreflector object in the environment.Type: ApplicationFiled: January 19, 2024Publication date: May 16, 2024Inventors: James Dunphy, David Schleuning, Ralph Shepard
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Patent number: 11933647Abstract: A system may include a first sensor of a first type and a second sensor of a second different type and having a detector. A field of view of the second sensor may be formed by a plurality of regions of interest (ROIs) defined by the detector. Control circuitry of the system may be configured to perform operations including obtaining, from the first sensor, first sensor data representing an environment, and determining, based on the first sensor data, information associated with a feature of interest within the environment. The operations may also include determining, based on the information, a particular ROI that corresponds to an expected position of the feature at a later time, obtaining a plurality of ROI sensor data from the particular ROI instead of obtaining full-resolution sensor data, and analyzing the plurality of ROI sensor data to determine one or more attributes of the feature.Type: GrantFiled: July 25, 2022Date of Patent: March 19, 2024Assignee: Waymo LLCInventors: Nirav Dharia, Giulia Guidi, Ralph Shepard, Vlad Cardei, Lucian Ion
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Patent number: 11892572Abstract: The present disclosure relates to multi-channel optical transmitter modules, lidar systems, and methods that involve micromirror devices. An example optical transmitter module includes at least one light-emitter device and a plurality of micromirror devices optically-coupled to the at least one light-emitter device. The at least one light-emitter device is configured to emit respective light beams toward an environment via the micromirror devices. The micromirror devices are configured to deflect the light beams. The optical transmitter module also includes a controller having at least one processor and a memory. The controller is configured to carry out operations. The operations include receiving information indicative of a retroreflector object in the environment.Type: GrantFiled: December 30, 2020Date of Patent: February 6, 2024Assignee: Waymo LLCInventors: James Dunphy, David Schleuning, Ralph Shepard
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Publication number: 20230273305Abstract: The present disclosure relates to optical systems and methods of their operation. An example optical system includes an optical component and one or more light sources configured to emit a light signal. The light signal interacts with the optical component so as to provide an interaction light signal. The optical system also includes a detector configured to detect at least a portion of the interaction light signal as a detected light signal. The optical system additionally includes a controller configured to carry out operations including causing the one or more light sources to emit the light signal and receiving the detected light signal from the detector. The operations also include determining, based on the detected light signal, that one or more defects are associated with the optical component.Type: ApplicationFiled: May 8, 2023Publication date: August 31, 2023Inventors: Ralph Shepard, Pierre-Yves Droz, Matthew Last, Bryce Remesch
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Patent number: 11681031Abstract: The present disclosure relates to optical systems and methods of their operation. An example optical system includes an optical component and one or more light sources configured to emit a light signal. The light signal interacts with the optical component so as to provide an interaction light signal. The optical system also includes a detector configured to detect at least a portion of the interaction light signal as a detected light signal. The optical system additionally includes a controller configured to carry out operations including causing the one or more light sources to emit the light signal and receiving the detected light signal from the detector. The operations also include determining, based on the detected light signal, that one or more defects are associated with the optical component.Type: GrantFiled: August 18, 2021Date of Patent: June 20, 2023Assignee: Waymo LLCInventors: Ralph Shepard, Pierre-Yves Droz, Matthew Last, Bryce Remesch
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Publication number: 20220357186Abstract: A system may include a first sensor of a first type and a second sensor of a second different type and having a detector. A field of view of the second sensor may be formed by a plurality of regions of interest (ROIs) defined by the detector. Control circuitry of the system may be configured to perform operations including obtaining, from the first sensor, first sensor data representing an environment, and determining, based on the first sensor data, information associated with a feature of interest within the environment. The operations may also include determining, based on the information, a particular ROI that corresponds to an expected position of the feature at a later time, obtaining a plurality of ROI sensor data from the particular ROI instead of obtaining full-resolution sensor data, and analyzing the plurality of ROI sensor data to determine one or more attributes of the feature.Type: ApplicationFiled: July 25, 2022Publication date: November 10, 2022Inventors: Nirav Dharia, Giulia Guidi, Ralph Shepard, Vlad Cardei, Lucian Ion
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Publication number: 20220308305Abstract: The technology relates to lens assemblies for sensor units that provide a low but consistent preload force over the entire operational temperature range of the device. Consistent preloading helps to avoid cracking and plastic deformation. In particular, a compliant structure of a polymeric material is able to expand and contract across temperature extremes. In addition, the polymeric material is arranged in conjunction with a retainer ring to form a discontinuous seal with the lens. This provides in a leak path that is able to reduce condensation or contaminants. As a result, moisture within the sensor unit is permitted to escape, reducing or eliminating impairments on the lens or other parts of the sensor unit that could otherwise impair device operation.Type: ApplicationFiled: June 15, 2022Publication date: September 29, 2022Inventors: Matthew Last, John Henrie, Chandra Kakani, Ralph Shepard, Drew Ulrich
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Patent number: 11428550Abstract: A system may include a first sensor of a first type and a second sensor of a second different type and having a detector. A field of view of the second sensor may be formed by a plurality of regions of interest (ROIs) defined by the detector. Control circuitry of the system may be configured to perform operations including obtaining, from the first sensor, first sensor data representing an environment, and determining, based on the first sensor data, information associated with a feature of interest within the environment. The operations may also include determining, based on the information, a particular ROI that corresponds to an expected position of the feature at a later time, obtaining a plurality of ROI sensor data from the particular ROI instead of obtaining full-resolution sensor data, and analyzing the plurality of ROI sensor data to determine one or more attributes of the feature.Type: GrantFiled: March 3, 2020Date of Patent: August 30, 2022Assignee: Waymo LLCInventors: Nirav Dharia, Giulia Guidi, Ralph Shepard, Vlad Cardei, Lucian Ion
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Patent number: 11402602Abstract: The technology relates to lens assemblies for sensor units that provide a low but consistent preload force over the entire operational temperature range of the device. Consistent preloading helps to avoid cracking and plastic deformation. In particular, a compliant structure of a polymeric material is able to expand and contract across temperature extremes. In addition, the polymeric material is arranged in conjunction with a retainer ring to form a discontinuous seal with the lens. This provides in a leak path that is able to reduce condensation or contaminants. As a result, moisture within the sensor unit is permitted to escape, reducing or eliminating impairments on the lens or other parts of the sensor unit that could otherwise impair device operation.Type: GrantFiled: September 27, 2019Date of Patent: August 2, 2022Assignee: Waymo LLCInventors: Matthew Last, John Henrie, Chandra Kakani, Ralph Shepard, Drew Ulrich
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Publication number: 20220187687Abstract: The present disclosure relates to optical systems, vehicles, and methods for providing improved thermal images. An example optical system includes a housing, a thermal camera disposed inside the housing, and an optical window coupled to an opening of the housing. The optical system also includes a heater assembly. The heater assembly includes a window heater and at least one connector extending from the window heater. The window heater is thermally coupled to an inner surface of the optical window. The window heater is configured to maintain the optical window at a desired temperature.Type: ApplicationFiled: December 10, 2020Publication date: June 16, 2022Inventors: Shashank Sharma, Matthew Last, Ralph Shepard
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Publication number: 20220155457Abstract: The present disclosure relates to optical systems and related methods of their use. An example optical system includes a transmitter. The transmitter includes a light emitter device configured to emit emission light. The light emitter device defines a reference plane. The transmitter also includes a fast axis collimation (FAC) lens optically coupled to the light emitter device. A lens axis of the FAC lens is arranged at a non-zero angle with respect to the reference plane. The transmitter also includes a transmit lens optically coupled to the FAC lens. The optical system also includes a receiver. The receiver includes a receive lens and a light detector optically coupled to the receive lens.Type: ApplicationFiled: March 2, 2020Publication date: May 19, 2022Inventors: Blaise Gassend, Ralph Shepard, Pierre-Yves Droz
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Publication number: 20210382154Abstract: The present disclosure relates to optical systems and methods of their operation. An example optical system includes an optical component and one or more light sources configured to emit a light signal. The light signal interacts with the optical component so as to provide an interaction light signal. The optical system also includes a detector configured to detect at least a portion of the interaction light signal as a detected light signal. The optical system additionally includes a controller configured to carry out operations including causing the one or more light sources to emit the light signal and receiving the detected light signal from the detector. The operations also include determining, based on the detected light signal, that one or more defects are associated with the optical component.Type: ApplicationFiled: August 18, 2021Publication date: December 9, 2021Inventors: Ralph Shepard, Pierre-Yves Droz, Matthew Last, Bryce Remesch
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Patent number: 11137485Abstract: The present disclosure relates to optical systems and methods of their operation. An example optical system includes an optical component and one or more light sources configured to emit a light signal. The light signal interacts with the optical component so as to provide an interaction light signal. The optical system also includes a detector configured to detect at least a portion of the interaction light signal as a detected light signal. The optical system additionally includes a controller configured to carry out operations including causing the one or more light sources to emit the light signal and receiving the detected light signal from the detector. The operations also include determining, based on the detected light signal, that one or more defects are associated with the optical component.Type: GrantFiled: August 6, 2019Date of Patent: October 5, 2021Assignee: Waymo LLCInventors: Ralph Shepard, Pierre-Yves Droz, Matthew Last, Bryce Remesch
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Publication number: 20210293932Abstract: The technology employs a contrasting color scheme on different surfaces for sensor housing assemblies mounted on exterior parts of a vehicle that is configured to operate in an autonomous driving mode. Lighter and darker colors may be chosen on different surfaces according to a thermal budget for a given sensor housing assembly, due to the different types of sensors arranged along particular surfaces, or to provide color contrast for different regions of the assembly. For instance, differing colors such as black/white or blue/white, and different finishes such as matte or glossy, may be selected to enhance certain attributes or to minimize issues associated with a sensor housing assembly.Type: ApplicationFiled: August 11, 2020Publication date: September 23, 2021Inventors: Yi-Hui Bruce-Wen, YooJung Ahn, Jared Gross, Joshua Newby, Jerry Chen, Ralph Shepard, Adam Brown
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Publication number: 20210278257Abstract: A system may include a first sensor of a first type and a second sensor of a second different type and having a detector. A field of view of the second sensor may be formed by a plurality of regions of interest (ROIs) defined by the detector. Control circuitry of the system may be configured to perform operations including obtaining, from the first sensor, first sensor data representing an environment, and determining, based on the first sensor data, information associated with a feature of interest within the environment. The operations may also include determining, based on the information, a particular ROI that corresponds to an expected position of the feature at a later time, obtaining a plurality of ROI sensor data from the particular ROI instead of obtaining full-resolution sensor data, and analyzing the plurality of ROI sensor data to determine one or more attributes of the feature.Type: ApplicationFiled: March 3, 2020Publication date: September 9, 2021Inventors: Nirav Dharia, Giulia Guidi, Ralph Shepard, Vlad Cardei, Lucian Ion
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Patent number: 11042004Abstract: Systems and methods can align of one or more optical beams with respect to one another, an optical axis, a far-field location, and/or a near-field location. An example method includes coupling, with an index-matched epoxy, a plurality of adjustable optical surfaces and an optical element. Each adjustable optical surface of the plurality of adjustable optical surfaces is associated with a respective light-emitter device of a plurality of light-emitter devices. Additionally, the method includes causing at least one light-emitter device to emit light that interacts with at least one adjustable optical surface and an optical element to provide a transmitted light beam. The method also includes receiving information about a beam profile of the transmitted light beam, comparing the beam profile to a desired beam profile, and adjusting a position of the at least one adjustable optical surface with respect to the optical element based on the comparison.Type: GrantFiled: October 23, 2017Date of Patent: June 22, 2021Assignee: Waymo LLCInventors: Ralph Shepard, Pierre-yves Droz
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Publication number: 20210124018Abstract: The present disclosure relates to systems, methods, and vehicles that could include a rotatable base configured to rotate about a first axis and a refractive optical window coupled to the rotatable base. The refractive optical window includes a flat window portion and a prism window portion or a curved refractive optical window. The LIDAR system could additionally include a mirror assembly coupled to the rotatable base. The mirror assembly includes a plurality of reflective surfaces. The mirror assembly is configured to rotate about a second axis. The second axis is substantially perpendicular to the first axis. The LIDAR system also includes a light-emitter device coupled to the rotatable base. The light-emitter device is configured to emit light pulses that interact with the mirror assembly and the refractive optical window such that the light pulses are directed into a first field of view within an environment of the LIDAR system.Type: ApplicationFiled: October 23, 2019Publication date: April 29, 2021Inventors: Blaise Gassend, Pierre-Yves Droz, Ralph Shepard
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Publication number: 20210096319Abstract: The technology relates to lens assemblies for sensor units that provide a low but consistent preload force over the entire operational temperature range of the device. Consistent preloading helps to avoid cracking and plastic deformation. In particular, a compliant structure of a polymeric material is able to expand and contract across temperature extremes. In addition, the polymeric material is arranged in conjunction with a retainer ring to form a discontinuous seal with the lens. This provides in a leak path that is able to reduce condensation or contaminants. As a result, moisture within the sensor unit is permitted to escape, reducing or eliminating impairments on the lens or other parts of the sensor unit that could otherwise impair device operation.Type: ApplicationFiled: September 27, 2019Publication date: April 1, 2021Inventors: Matthew Last, John Henrie, Chandra Kakani, Ralph Shepard, Drew Ulrich