Patents by Inventor Andrew Haynes
Andrew Haynes 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: 20240112089Abstract: A facility for optimizing machine learning models is described. The facility obtains a description of a machine learning model and a hardware target for the machine learning model. The facility obtains optimization result data from a repository of optimization result data. The facility optimizes the machine learning model for the hardware target based on the optimization result data.Type: ApplicationFiled: December 13, 2023Publication date: April 4, 2024Inventors: Matthew Welsh, Jason Knight, Jared Roesch, Thierry Moreau, Adelbert Chang, Tianqi Chen, Luis Henrique Ceze, An Wang, Michal Piszczek, Andrew McHarg, Fletcher Haynes
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Patent number: 11935041Abstract: Example embodiments of systems and methods for data transmission system between transmitting and receiving devices are provided. In an embodiment, each of the transmitting and receiving devices can contain a master key. The transmitting device can generate a diversified key using the master key, protect a counter value and encrypt data prior to transmitting to the receiving device, which can generate the diversified key based on the master key and can decrypt the data and validate the protected counter value using the diversified key.Type: GrantFiled: October 14, 2021Date of Patent: March 19, 2024Assignee: Capital One Services, LLCInventors: Kaitlin Newman, Colin Hart, Jeffrey Rule, Lara Mossler, Sophie Bermudez, Michael Mossoba, Wayne Lutz, Charles Nathan Crank, Melissa Heng, Kevin Osborn, Kimberly Haynes, Andrew Cogswell, Latika Gulati, Sarah Jane Cunningham, James Ashfield
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Patent number: 11577485Abstract: The invention relates to a microarray structure that may include a substrate material layer, a continuous three-dimensional (3D) surface layer on the substrate material layer that is capable of functionalisation for use as an array, and an inert material. The structure may include accurately defined and functionalisable isolated areas which are millimeter to nanometer in size. The functionalisable areas may be part of the continuous 3D surface layer and may be isolated by the inert material but interconnected within the structure by the continuous 3D surface layer.Type: GrantFiled: December 20, 2019Date of Patent: February 14, 2023Assignee: Digital Sensing Ltd.Inventors: Andrew Haynes, David James Bates, Ashton Cyril Partridge, Karthik Kannappan
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Publication number: 20230005834Abstract: An electrical component is provided by metallizing holes that extend through a glass substrate. The electrical component can be fabricated by forcing a suspension of electrically conductive particles suspended in a liquid medium through the holes. The suspension can be forced into the holes under an air pressure differential such as a pressure differential force, a centrifugal force, or an electrostatic force. The liquid medium in the holes can be dried, and the particles can be sintered. The particles can further be packed in the hole. Alternatively or additionally, the particles can be pressed against the outer surfaces of the substrate to produce buttons.Type: ApplicationFiled: September 30, 2020Publication date: January 5, 2023Inventors: Alan D. NOLET, Andrew Haynes LIOTTA, Troy Benton HOLLAND, Thomas Jacob HAMMANN, Heidi BATES, Daniel GOIA, Vishwas Vnayak HARDIKAR, Ajeet KUMAR, Daniel US LONG, Nicole MCGRAW, Lauren Savawn MOEN, Adam OWENS
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Patent number: 11408613Abstract: A solar thermal control system includes a membrane configured to receive solar energy, wherein the membrane is configured to form a cavity between the membrane and an outer surface of a structure by coupling to the outer surface, and wherein the solar energy is configured to heat air within the cavity. The control system also includes a thermal collection unit configured to connect to the cavity and receive and direct air from the cavity, and a ducting system coupled to the thermal collection unit and configured to direct air from the thermal collection unit to at least one of the interior of the structure and a vent.Type: GrantFiled: October 8, 2019Date of Patent: August 9, 2022Assignee: ZINNIATEK LIMITEDInventors: Andrew Haynes, Ashton Partridge, Daniel Fernandez, Johan Kvasnicka, David Bates, Christopher Morrow
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Publication number: 20220149359Abstract: Iron electrode materials, iron electrodes, and methods for fabricating said iron electrode materials and iron electrodes via elevated temperature thermomechanical processing of porous particulate iron materials are described. For example, as part of iron electrode manufacture, a particulate iron material into an apparatus may be provided. In addition, pressure and/or heat may be applied to the particulate iron material in the apparatus for a time period to form an electrode having therein conductive connections between particles of the particulate iron material.Type: ApplicationFiled: November 10, 2021Publication date: May 12, 2022Inventors: Michael Andrew GIBSON, Joseph Anthony PANTANO, Rupak CHAKRABORTY, Nicholas Reed PERKINS, William Henry WOODFORD, Valerie Christine SACHA, Robert Wesley MORGAN, Eric WEBER, Vincent CHEVRIER, Andrew Haynes LIOTTA, Karen THOMAS-ALYEA, Leah NATION, Michael CHON, Rebecca Marie EISENACH
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Publication number: 20210028452Abstract: Materials, designs, and methods of fabrication for iron-manganese oxide electrochemical cells are disclosed. In various embodiments, the negative electrode is comprised of pelletized, briquetted, or pressed iron-bearing components, including metallic iron or iron-based compounds (oxides, hydroxides, sulfides, or combinations thereof), collectively called “iron negative electrode.” In various embodiments, the positive electrode is comprised of pelletized, briquetted, or pressed manganese-bearing components, including manganese (IV) oxide (MnO2), manganese (III) oxide (Mn2O3), manganese (III) oxyhydroxide (MnOOH), manganese (II) oxide (MnO), manganese (II) hydroxide (Mn(OH)2), or combinations thereof, collectively called “manganese oxide positive electrode.” In various embodiments, electrolyte is comprised of aqueous alkali metal hydroxide including lithium hydroxide (LiOH), sodium hydroxide (NaOH), potassium hydroxide (KOH), cesium hydroxide (CsOH), or combinations thereof.Type: ApplicationFiled: July 25, 2020Publication date: January 28, 2021Inventors: Liang SU, Jarrod David MILSHTEIN, William Henry WOODFORD, Yet-Ming CHIANG, Jay WHITACRE, Lucas COHEN, Rupak CHAKRABORTY, Andrew Haynes LIOTTA, Ian Salmon MCKAY, Thomas CONRY, Michael Andrew GIBSON, Jocelyn Marie NEWHOUSE, Amelie Nina KHAREY, Annelise Christine THOMPSON, Weston SMITH, Joseph Anthony PANTANO, Isabella CARUSO, Benjamin Thomas HULTMAN, Max Rae CHU, Nicholas PERKINS, Florian WEHNER, Rebecca EISENACH, Mitchell Terrance WESTWOOD, Tristan GILBERT, Rachel Elizabeth MUMMA, Brandon UBER, Eric WEBER, Danielle Cassidy SMITH, Brooke WOJESKI
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Publication number: 20200411879Abstract: Systems and methods of the various embodiments may provide low cost bifunctional air electrodes. Various embodiments may provide a bifunctional air electrode, including a metal substrate and particles of metal and/or metal oxide catalyst and/or metal nitride catalyst coated on the metal substrate. Various embodiments may provide a bifunctional air electrode, including a first portion configured to engage an oxygen reduction reaction (ORR) in a discharge mode and a second portion configured to engage an oxygen evolution reaction (OER) in a charge mode. Various embodiments may provide a method for making an air electrode including coating a metal substrate with particles of metal and/or metal oxide catalyst and/or metal nitride catalyst. Various embodiments may provide batteries including air electrodes.Type: ApplicationFiled: June 26, 2020Publication date: December 31, 2020Inventors: Katherine HARTMAN, Kristen CARLISLE, Jarrod David MILSHTEIN, Liang SU, Rupak CHAKRABORTY, Yet-Ming CHIANG, Thomas JARAMILLO, William Henry WOODFORD, Marco FERRARA, Mateo Cristian JARAMILLO, Theodore Alan WILEY, Erick RUOFF, Nicholas Reed PERKINS, Marc-Antoni GOULET, Joycelyn NEWHOUSE, Andrew Haynes LIOTTA, Bradley MILESON, Michael Andrew GIBSON, Eric WEBER, Annelise Christine THOMPSON
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Publication number: 20200411932Abstract: Systems and methods of the various embodiments may provide device architectures for batteries. In various embodiments, these may be primary or secondary batteries. In various embodiments these devices may be useful for energy storage. Various embodiments may provide a battery including an Oxygen Reduction Reaction (ORR) electrode, an Oxygen Evolution Reaction (OER) electrode, a metal electrode; and an electrolyte separating the ORR electrode and the OER electrode from the metal electrode.Type: ApplicationFiled: June 26, 2020Publication date: December 31, 2020Inventors: Eric WEBER, Mitchell Terrance WESTWOOD, Rachel Elizabeth MUMMA, Alexander H. SLOCUM, Liang SU, Jarrod David MILSHTEIN, William Henry WOODFORD, Yet-Ming CHIANG, Mateo Cristian JARAMILLO, Ian Salmon MCKAY, Fikile BRUSHETT, Helen Van BENSCHOTEN, Tristan GILBERT, Nicholas Reed PERKINS, Joseph Anthony PANTANO, Weston SMITH, Kristen CARLISLE, Isabella CARUSO, Benjamin Thomas HULTMAN, Annelise Christine THOMPSON, Danielle SMITH, Vladimir TARASOV, Katherine HARTMAN, Andrew Haynes LIOTTA, Onur TALU, Marc-Antoni GOULET, Rupak CHAKRABORTY, Florian WEHNER, Bradley MILESON, Alexandra ROUSSEAU
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Publication number: 20200198286Abstract: The invention relates to a microarray structure that may include a substrate material layer, a continuous three-dimensional (3D) surface layer on the substrate material layer that is capable of functionalisation for use as an array, and an inert material. The structure may include accurately defined and functionalisable isolated areas which are millimeter to nanometer in size. The functionalisable areas may be part of the continuous 3D surface layer and may be isolated by the inert material but interconnected within the structure by the continuous 3D surface layer.Type: ApplicationFiled: December 20, 2019Publication date: June 25, 2020Applicant: Digital Sensing Ltd.Inventors: Andrew Haynes, David James Bates, Ashton Cyril Partridge, Karthik Kannappan
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Publication number: 20200182486Abstract: A solar thermal control system includes a membrane configured to receive solar energy, wherein the membrane is configured to form a cavity between the membrane and an outer surface of a structure by coupling to the outer surface, and wherein the solar energy is configured to heat air within the cavity. The control system also includes a thermal collection unit configured to connect to the cavity and receive and direct air from the cavity, and a ducting system coupled to the thermal collection unit and configured to direct air from the thermal collection unit to at least one of the interior of the structure and a vent.Type: ApplicationFiled: October 8, 2019Publication date: June 11, 2020Applicant: Zinniatek LimitedInventors: Andrew Haynes, Ashton Partridge, Daniel Fernandez, Johan Kvasnicka, David Bates, Christopher Morrow
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Patent number: 10556398Abstract: The invention relates to a microarray structure including a substrate material layer, a continuous three-dimensional (3D) surface layer on the substrate material layer that is capable of functionalisation for use as an array, and an inert material wherein the structure includes accurately defined and functionalisable isolated areas which are millimeter to nanometer in size. The functionalised areas are part of the continuous 3D surface layer and are isolated by the inert material and are interconnected within the structure by the continuous 3D surface layer.Type: GrantFiled: October 12, 2012Date of Patent: February 11, 2020Assignee: Digital Sensing LimitedInventors: Andrew Haynes, David James Bates, Ashton Cyril Partridge, Karthik Kannappan
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Patent number: 10502435Abstract: A solar thermal control system includes a membrane configured to receive solar energy, wherein the membrane is configured to form a cavity between the membrane and an outer surface of a structure by coupling to the outer surface, and wherein the solar energy is configured to heat air within the cavity. The control system also includes a thermal collection unit configured to connect to the cavity and receive and direct air from the cavity, and a ducting system coupled to the thermal collection unit and configured to direct air from the thermal collection unit to at least one of the interior of the structure and a vent.Type: GrantFiled: March 5, 2015Date of Patent: December 10, 2019Assignee: ZinniaTek LimitedInventors: Andrew Haynes, Ashton Partridge, Daniel Fernandez, Johan Kvasnicka, David Bates, Christopher Morrow
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Publication number: 20180327824Abstract: Disclosed is a method of producing a two dimensional microarray using a three dimensional or structured microarray. The invention involves forming defined functionalized areas by layering an inert material over the surface structures of the three dimensional microarray. Sufficient of the inert material and of the top of the surface structures are then removed to expose defined areas of the surface structures within the inert material.Type: ApplicationFiled: April 30, 2018Publication date: November 15, 2018Inventors: Andrew HAYNES, Aston Cyril PARTRIDGE, Yinqiu WU
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Publication number: 20170059184Abstract: A solar thermal control system includes a membrane configured to receive solar energy, wherein the membrane is configured to form a cavity between the membrane and an outer surface of a structure by coupling to the outer surface, and wherein the solar energy is configured to heat air within the cavity. The control system also includes a thermal collection unit configured to connect to the cavity and receive and direct air from the cavity, and a ducting system coupled to the thermal collection unit and configured to direct air from the thermal collection unit to at least one of the interior of the structure and a vent.Type: ApplicationFiled: March 5, 2015Publication date: March 2, 2017Applicant: Zinniatek LimitedInventors: Andrew Haynes, Ashton Partridge, Daniel Fernandez, Johan Kvasnicka, David Bates, Christopher Morrow
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Publication number: 20140342128Abstract: The invention relates to a microarray structure including a substrate material layer, a continuous three-dimensional (3D) surface layer on the substrate material layer that is capable of functionalisation for use as an array, and an inert material wherein the structure includes accurately defined and functionalisable isolated areas which are millimeter to nanometer in size. The functionalised areas are part of the continuous 3D surface layer and are isolated by the inert material and are interconnected within the structure by the continuous 3D surface layer.Type: ApplicationFiled: October 12, 2012Publication date: November 20, 2014Applicant: Digital Sensing LimitedInventors: Andrew Haynes, David James Bates, Ashton Cyril Partridge, Karthik Kannappan
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Publication number: 20130109585Abstract: Disclosed is a method of producing a two dimensional microarray using a three dimensional or structured microarray. The invention involves forming defined functionalized areas by layering an inert material over the surface structures of the three dimensional microarray. Sufficient of the inert material and of the top of the surface structures are then removed to expose defined areas of the surface structures within the inert material.Type: ApplicationFiled: April 15, 2011Publication date: May 2, 2013Applicant: Digital Sensing LimitedInventors: Andrew Haynes, Aston Cyril Partridge, Yinqiu Wu
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Patent number: 8113286Abstract: A ball type downhole barrier valve capable of bidirectional sealing features a ball rotating on its axis to open or close with control line pressure to an actuating rod piston assembly. The ball is also shiftable to a locked open position. A cage surrounds the ball and retains opposed seats to it. The cage is made from one piece and tangential holes are drilled and tapped before the piece is longitudinally split with a wire EDM cutting technique. Fasteners to rejoin the cut halves properly space them to the original one piece internal dimension. Auxiliary tools allow determination of spacing of internal components so that a desired spring preload on the seats against the ball can be achieved. Seals on the sleeves that form ball seats help prevent leakage due to ball distortion at high differential pressures when the valve is closed.Type: GrantFiled: March 25, 2008Date of Patent: February 14, 2012Assignee: Baker Hughes IncorporatedInventors: Clifford H. Beall, Michael J. May, James T. Sloan, Andrew Haynes, Thad D. Andrews
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Publication number: 20100300702Abstract: A wellbore shut-off valve is operably associated with a valve actuator so that the shut-off valve can be selectively moved between open and closed conditions when desired rather than opening and closing occurring automatically as portions of the production assembly are removed or replaced in the wellbore.Type: ApplicationFiled: May 27, 2009Publication date: December 2, 2010Applicant: Baker Hughes IncorporatedInventors: Thad D. Andrews, Thomas Scott Myerley, Mona I. Desai, Martin Neil Farquhar, Andrew Haynes, Craig Coull, Jesse J. Constantine
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Patent number: 7604056Abstract: Disclosed herein is a downhole valve. The downhole valve includes, a flapper seat, a flapper sealable against the flapper seat, a spring housing in axial alignment with the flapper seat and a metal-to-metal seal disposed between the flapper seat and the spring housing. The metal-to-metal seal is sealable to both the flapper seat and the spring housing when in an energized position. Additionally, the metal-to-metal seal is a separate component from both the flapper seat and the spring housing.Type: GrantFiled: March 7, 2007Date of Patent: October 20, 2009Assignee: Baker Hughes IncorporatedInventor: Andrew Haynes