Patents by Inventor David Duff
David Duff 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).
-
Patent number: 12055659Abstract: The present disclosure relates to devices, lidar systems, and vehicles that include optical redirectors. An example lidar system includes a transmitter and a receiver. The transmitter includes at least one light-emitter device configured to transmit emission light into an environment of the lidar system. The receiver is configured to detect return light from the environment and includes a plurality of apertures, a plurality of photodetectors, and a plurality of optical redirector elements. Each optical redirector element is configured to optically couple a respective portion of return light from a respective aperture to at least one photodetector of the plurality of photodetectors.Type: GrantFiled: December 26, 2020Date of Patent: August 6, 2024Assignee: Waymo LLCInventors: Blaise Gassend, David Duff, Pierre-Yves Droz, Paul Karplus, Jason Watson, Michael Brickner, Alex Rivas
-
Publication number: 20240151934Abstract: The present disclosure relates to optical devices and systems, specifically those related to light detection and ranging (LIDAR) systems. An example device includes a shaft defining a rotational axis. The shaft includes a first material having a first coefficient of thermal expansion. The device also includes a rotatable mirror disposed about the shaft. The rotatable mirror includes a multi-sided structure having an exterior surface and an interior surface. The multi-sided structure includes a second material having a second coefficient of thermal expansion. The second coefficient of thermal expansion is different from the first coefficient of thermal expansion. The multi-sided structure also includes a plurality of reflective surfaces disposed on the exterior surface of the multi-sided structure. The multi-sided structure yet further includes one or more support members coupled to the interior surface and the shaft.Type: ApplicationFiled: January 18, 2024Publication date: May 9, 2024Inventors: Blaise GASSEND, Ryan DAVIS, David DUFF
-
Publication number: 20240118391Abstract: The present disclosure relates to devices, lidar systems, and vehicles that include optical redirectors. An example lidar system includes a transmitter and a receiver. The transmitter includes at least one light-emitter device configured to transmit emission light into an environment. The receiver is configured to detect return light from the environment and includes a plurality of apertures, a plurality of photodetectors, and a plurality of optical redirectors. Each optical redirector is configured to optically couple a respective portion of return light from a respective aperture to at least one photodetector of the plurality of photodetectors. Each optical redirector also has a rotational orientation relative to other optical redirectors such that the redirection paths of optical redirectors that correspond to adjacent apertures are not coplanar with one another.Type: ApplicationFiled: December 14, 2023Publication date: April 11, 2024Inventors: Blaise Gassend, David Duff, Pierre-Yves Droz, Paul Karplus, Jason Watson, Michael Brickner, Alex Rivas
-
Publication number: 20240109519Abstract: Example embodiments relate to wiper devices for cleaning sensor housings. An example embodiment includes a wiper device for cleaning a surface of a rotatable sensor housing. The wiper device may have a driving arm having a first end and a second end. The first end of the driving arm is connected to a rotatable shaft. The wiper device may also have a wiper arm pivotally connected to the second end of the driving arm. The pivotal connection is located between a front region and a rear region of the wiper arm. Further, the wiper device may have a wiper blade coupled to the front region of the wiper arm. The wiper blade may be configured to wipe the surface of the rotatable sensor housing. Additionally, the wiper device may have a counterweight coupled to the rear region of the wiper arm.Type: ApplicationFiled: September 30, 2022Publication date: April 4, 2024Inventors: David Duff, Michael Hall-Snyder, Glenn Wheelock
-
Patent number: 11906813Abstract: The present disclosure relates to optical devices and systems, specifically those related to light detection and ranging (LIDAR) systems. An example device includes a shaft defining a rotational axis. The shaft includes a first material having a first coefficient of thermal expansion. The device also includes a rotatable mirror disposed about the shaft. The rotatable mirror includes a multi-sided structure having an exterior surface and an interior surface. The multi-sided structure includes a second material having a second coefficient of thermal expansion. The second coefficient of thermal expansion is different from the first coefficient of thermal expansion. The multi-sided structure also includes a plurality of reflective surfaces disposed on the exterior surface of the multi-sided structure. The multi-sided structure yet further includes one or more support members coupled to the interior surface and the shaft.Type: GrantFiled: August 26, 2022Date of Patent: February 20, 2024Assignee: Waymo LLCInventors: Blaise Gassend, Ryan Davis, David Duff
-
Patent number: 11841463Abstract: Aspects of the technology employ sensors having high speed rotating mirror assemblies. For instance, the sensors may be Lidar sensors configured to detect people and other objects in an area of interest. A given mirror assembly may have a triangular or other geometric cross-sectional shape. The reflective faces of the mirror assembly may connect along edges or corners. In order to minimize wind drag and torque issues, the corners are rounded, filleted, beveled, chamfered or otherwise truncated. Such truncation may extend the length of the mirror side. The mirror assembly may employ one or more beam stops, light baffles and/or acoustic/aerodynamic baffles. These sensors may be employed with self-driving or manual driven vehicles or other equipment. The sensors may also be used in and around buildings.Type: GrantFiled: September 9, 2022Date of Patent: December 12, 2023Assignee: Waymo LLCInventors: Paul Karplus, Blaise Gassend, David Duff
-
Publication number: 20230194669Abstract: An example lidar system includes a housing defining an interior space. The housing includes at least one optical window. The lidar system also includes a rotatable mirror assembly disposed within the interior space. The rotatable mirror assembly includes a transmit mirror portion and a receive mirror portion. The lidar system additionally includes a transmitter disposed within the interior space. The transmitter is configured to emit emission light into an environment of the lidar system along a transmit path. The lidar system also includes a receiver disposed within the interior space. The receiver is configured to detect return light that is received from the environment along a receive path. The lidar system additionally includes at least one optical baffle configured to minimize stray light in the interior space.Type: ApplicationFiled: December 22, 2021Publication date: June 22, 2023Inventors: Jason Watson, David Duff, Justin Andrade, Blaise Gassend, Alex Bogatko, Alex Rivas, Michael Brickner, Yeh-Jiun Tung, Hui Son
-
Publication number: 20230194854Abstract: The present disclosure relates to systems and methods that involve a rotatable mirror assembly. An example system includes a shaft configured to rotate about a rotational axis. A portion of the shaft can be tapered, either in a stepped profile or a ramped profile. In the surface of the shaft can be one or more circumferentially-indented grooves. The system also includes a mirror body coupled to the tapered shaft via the at least one circumferentially-indented groove. The mirror body is configured to have a polygonal cross-section, and reflective surfaces can be disposed along at least one external surface of the mirror body. Example methods of manufacturing the rotatable mirror assembly are also disclosed.Type: ApplicationFiled: December 16, 2021Publication date: June 22, 2023Inventors: David Duff, Michael Brickner, Hugh Ross
-
Publication number: 20230120185Abstract: Disclosed are compounds having the formula: wherein R1, R2, and R3 are as defined herein, and methods of making and using the same.Type: ApplicationFiled: September 27, 2022Publication date: April 20, 2023Applicant: GLAXOSMITHKLINE INTELLECTUAL PROPERTY DEVELOPMENT LIMITEDInventors: Niall Andrew Anderson, Deepak Bandyopadhyay, Alain Daugan, Frederic G. Donche, Patrick M. Eidam, Nicolas Eric Faucher, Nicolas S. George, Philip Anthony Harris, Jae U. Jeong, Bryan W. King, Clark A. Sehon, Gemma Victoria White, David Duff Wisnoski
-
Publication number: 20230003847Abstract: Aspects of the technology employ sensors having high speed rotating mirror assemblies. For instance, the sensors may be Lidar sensors configured to detect people and other objects in an area of interest. A given mirror assembly may have a triangular or other geometric cross-sectional shape. The reflective faces of the mirror assembly may connect along edges or corners. In order to minimize wind drag and torque issues, the corners are rounded, filleted, beveled, chamfered or otherwise truncated. Such truncation may extend the length of the mirror side. The mirror assembly may employ one or more beam stops, light baffles and/or acoustic/aerodynamic baffles. These sensors may be employed with self-driving or manual driven vehicles or other equipment. The sensors may also be used in and around buildings.Type: ApplicationFiled: September 9, 2022Publication date: January 5, 2023Inventors: Paul Karplus, Blaise Gassend, David Duff
-
Publication number: 20220413260Abstract: The present disclosure relates to optical devices and systems, specifically those related to light detection and ranging (LIDAR) systems. An example device includes a shaft defining a rotational axis. The shaft includes a first material having a first coefficient of thermal expansion. The device also includes a rotatable mirror disposed about the shaft. The rotatable mirror includes a multi-sided structure having an exterior surface and an interior surface. The multi-sided structure includes a second material having a second coefficient of thermal expansion. The second coefficient of thermal expansion is different from the first coefficient of thermal expansion. The multi-sided structure also includes a plurality of reflective surfaces disposed on the exterior surface of the multi-sided structure. The multi-sided structure yet further includes one or more support members coupled to the interior surface and the shaft.Type: ApplicationFiled: August 26, 2022Publication date: December 29, 2022Inventors: Blaise GASSEND, Ryan DAVIS, David DUFF
-
Patent number: 11515053Abstract: A mobile heat pipe cooled fast nuclear reactor may be configured for transportation to remote locations and may be able to provide 0.5 to 2 megawatts of power. The mobile heat pipe cooled fast reactor may contain a plurality of heat pipes that are proximate to a plurality of fuel pins inside the reactor. The plurality of heat pipes may extend out of the reactor. The reactor may be configured to be placed in a standard shipping container, and may further be configured to be contained within a cask and attached to a skid for easier transportation.Type: GrantFiled: May 4, 2020Date of Patent: November 29, 2022Assignee: Triad National Security, LLCInventors: Patrick Ray McClure, David Duff Dixon, David Irvin Poston, Richard J. Kapernick, Robert Stowers Reid, Venkateswara Rao Dasari
-
Patent number: 11485710Abstract: Disclosed are compounds having the formula: wherein R1, R2, and R3 are as defined herein, and methods of making and using the same.Type: GrantFiled: January 22, 2021Date of Patent: November 1, 2022Assignee: GlaxoSmithKline Intellectual Property Development LimitedInventors: Niall Andrew Anderson, Deepak Bandyopadhyay, Alain Claude-Marie Daugan, Frederic G. Donche, Patrick M. Eidam, Nicolas Eric Faucher, Nicolas S. George, Philip Anthony Harris, Jae U. Jeong, Bryan W. King, Clark A. Sehon, Gemma Victoria White, David Duff Wisnoski
-
Patent number: 11474211Abstract: Aspects of the technology employ sensors having high speed rotating mirror assemblies. For instance, the sensors may be Lidar sensors configured to detect people and other objects in an area of interest. A given mirror assembly may have a triangular or other geometric cross-sectional shape. The reflective faces of the mirror assembly may connect along edges or corners. In order to minimize wind drag and torque issues, the corners are rounded, filleted, beveled, chamfered or otherwise truncated. Such truncation may extend the length of the mirror side. The mirror assembly may employ one or more beam stops, light baffles and/or acoustic/aerodynamic baffles. These sensors may be employed with self-driving or manual driven vehicles or other equipment. The sensors may also be used in and around buildings.Type: GrantFiled: October 23, 2019Date of Patent: October 18, 2022Assignee: Waymo LLCInventors: Paul Karplus, Blaise Gassend, David Duff
-
Patent number: 11460662Abstract: The present disclosure relates to optical devices and systems, specifically those related to light detection and ranging (LIDAR) systems. An example device includes a shaft defining a rotational axis. The shaft includes a first material having a first coefficient of thermal expansion. The device also includes a rotatable mirror disposed about the shaft. The rotatable mirror includes a multi-sided structure having an exterior surface and an interior surface. The multi-sided structure includes a second material having a second coefficient of thermal expansion. The second coefficient of thermal expansion is different from the first coefficient of thermal expansion. The multi-sided structure also includes a plurality of reflective surfaces disposed on the exterior surface of the multi-sided structure. The multi-sided structure yet further includes one or more support members coupled to the interior surface and the shaft.Type: GrantFiled: December 26, 2018Date of Patent: October 4, 2022Assignee: Waymo LLCInventors: Blaise Gassend, Ryan Davis, David Duff
-
Publication number: 20220120877Abstract: The present disclosure relates to devices, lidar systems, and vehicles that include optical redirectors. An example lidar system includes a transmitter and a receiver. The transmitter includes at least one light-emitter device configured to transmit emission light into an environment of the lidar system. The receiver is configured to detect return light from the environment and includes a plurality of apertures, a plurality of photodetectors, and a plurality of optical redirectors. Each optical redirector is configured to optically couple a respective portion of return light from a respective aperture to at least one photodetector of the plurality of photodetectors. At least one of the optical redirectors includes an optically isolating coating.Type: ApplicationFiled: December 30, 2021Publication date: April 21, 2022Inventors: Blaise Gassend, David Duff, Pierre-Yves Droz, Paul Karplus, Jason Watson, Michael Brickner, Alex Rivas
-
Publication number: 20210405157Abstract: The present disclosure relates to optical systems and methods of their manufacture. An example optical system includes a transmitter. The transmitter includes a reference axis and a light emitter device configured to emit light along a transmit path. The optical system also includes a rotatable mount configured to adjust an orientation of the light emitter device so as to adjust a pitch angle, a roll angle, or a yaw angle of the transmit path with respect to the reference axis. The optical system additionally includes a translatable mount configured to adjust a position of the light emitter device along a reference plane that is perpendicular to the reference axis.Type: ApplicationFiled: March 4, 2020Publication date: December 30, 2021Inventors: Blaise Gassend, David Duff, Pierre-Yves Droz
-
Publication number: 20210253532Abstract: Disclosed are compounds having the formula: wherein R1, R2, and R3 are as defined herein, and methods of making and using the same.Type: ApplicationFiled: January 22, 2021Publication date: August 19, 2021Inventors: Niall Andrew Anderson, Deepak Bandyopadhyay, Alain Claude-Marie Daugan, Frederic G. Donche, Patrick M. Eidam, Nicolas Eric Faucher, Nicolas S. George, Philip Anthony Harris, Jae U. Jeong, Bryan W. King, Clark A. Sehon, Gemma Victoria White, David Duff Wisnoski
-
Publication number: 20210199770Abstract: The present disclosure relates to devices, lidar systems, and vehicles that include optical redirectors. An example lidar system includes a transmitter and a receiver. The transmitter includes at least one light-emitter device configured to transmit emission light into an environment of the lidar system. The receiver is configured to detect return light from the environment and includes a plurality of apertures, a plurality of photodetectors, and a plurality of optical redirector elements. Each optical redirector element is configured to optically couple a respective portion of return light from a respective aperture to at least one photodetector of the plurality of photodetectors.Type: ApplicationFiled: December 26, 2020Publication date: July 1, 2021Inventors: Blaise Gassend, David Duff, Pierre-Yves Droz, Paul Karplus, Jason Watson, Michael Brickner, Alex Rivas
-
Publication number: 20210199779Abstract: The present disclosure relates to systems and devices having a rotatable mirror assembly. An example system includes a housing and a rotatable mirror assembly. The rotatable mirror assembly includes a plurality of reflective surfaces, a shaft defining a rotational axis, and a mirror body coupling the plurality of reflective surfaces to the shaft. The mirror body includes a plurality of flexible support members. The rotatable mirror assembly also includes a coupling bracket configured to removably couple the rotatable mirror assembly to the housing. The system also includes a transmitter configured to emit emission light into an environment of the system after interacting with at least one reflective surface of the plurality of reflective surfaces. The system additionally includes a receiver configured to detect return light from the environment after interacting with the at least one reflective surface of the plurality of reflective surfaces.Type: ApplicationFiled: December 26, 2020Publication date: July 1, 2021Inventors: Blaise Gassend, David Duff, Paul Karplus, Hui Son, Alex Rivas