Patents by Inventor James A. Walsh

James A. Walsh 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: 11351697
    Abstract: A manufacturing system includes a tape advancing through the manufacturing system and a station of the manufacturing system. The tape includes a first portion having grains of an inorganic material bound by an organic binder. The station of the manufacturing system receives the first portion of the tape and prepares the tape for sintering by chemically changing the organic binder and/or removing the organic binder from the first portion of the tape, leaving the grains of the inorganic material, to form a second portion of the tape and, at least in part, prepare the tape for sintering.
    Type: Grant
    Filed: October 2, 2019
    Date of Patent: June 7, 2022
    Assignee: Corning Incorporated
    Inventors: Michael Edward Badding, William Joseph Bouton, Lanrik Wayne Kester, Thomas Dale Ketcham, Andrew Peter Kittleson, Dale Charles Marshall, Gary Edward Merz, Eric Lee Miller, Emmanuel Chima Okpara, Conor James Walsh
  • Patent number: 11272026
    Abstract: A global architecture (GLP), as disclosed herein, is based on the thin server architectural pattern; it delivers all its services in the form of web services and there are no user interface components executed on the GLP. Each web service exposed by the GLP is stateless, which allows the GLP to be highly scalable. The GLP is further decomposed into components. Each component is a microservice, making the overall architecture fully decoupled. Each microservice has fail-over nodes and can scale up on demand. This means the GLP has no single point of failure, making the platform both highly scalable and available. The GLP architecture provides the capability to build and deploy a microservice instance for each course-recipient-user combination. Because each student interacts with their own microservice, this makes the GLP scale up to the limit of cloud resources available—i.e. near infinity.
    Type: Grant
    Filed: July 20, 2020
    Date of Patent: March 8, 2022
    Assignee: PEARSON MANAGEMENT SERVICES LIMITED
    Inventors: James Walsh, Suhail Khaki
  • Patent number: 11233869
    Abstract: A global architecture (GLP), as disclosed herein, is based on the thin server architectural pattern; it delivers all its services in the form of web services and there are no user interface components executed on the GLP. Each web service exposed by the GLP is stateless, which allows the GLP to be highly scalable. The GLP is further decomposed into components. Each component is a microservice, making the overall architecture fully decoupled. Each microservice has fail-over nodes and can scale up on demand. This means the GLP has no single point of failure, making the platform both highly scalable and available. The GLP architecture provides the capability to build and deploy a microservice instance for each course-recipient-user combination. Because each student interacts with their own microservice, this makes the GLP scale up to the limit of cloud resources available—i.e. near infinity.
    Type: Grant
    Filed: June 24, 2020
    Date of Patent: January 25, 2022
    Assignee: PEARSON MANAGEMENT SERVICES LIMITED
    Inventors: James Walsh, Suhail Khaki
  • Patent number: 11220021
    Abstract: A system (100) and method to control rheology of ceramic pre-cursor batch during extrusion is described herein. An extrusion system (100) comprises an extruder (122) with an input port (144) configured to feed ceramic pre-cursor batch into a first section (120) of an extruder barrel and a discharge port configured to extrude a ceramic pre-cursor extrudate (172) out of the extruder barrel downstream of the input port (144). A liquid injector (210) is configured to inject liquid into the ceramic pre-cursor batch. A sensor (106) is configured to detect a rheology characteristic of the ceramic pre-cursor batch. A controller (108) is configured (i) to receive the rheology characteristic from the sensor (106), (ii) compare the rheology characteristic to a predetermined rheology value of the ceramic pre-cursor batch, and (iii) generate a command based on the comparison. A liquid regulator (110) is configured to receive the command and adjust liquid flow to the liquid injector (210) based on the command.
    Type: Grant
    Filed: August 3, 2017
    Date of Patent: January 11, 2022
    Assignee: Corning Incorporated
    Inventors: Christopher John Malarkey, Conor James Walsh
  • Patent number: 11173678
    Abstract: A compactor has a plunger housing with a door for insertion of waste. The plunger presses waste into a bag on a pallet within an enclosure with panels and a pair of panels in the form of doors at the rear. Side panels, are joined along their lower edges to a floor panel, the side panels supporting the end panels at vertical hinges. There is resilience due to the ability of the various panels to move, in which each side panel is cantilevered about the corner at which it is joined to the floor panel, and the end panels can rotate about the relevant vertical axis of the hinges. As the plunger presses axially to compact waste within a bag when the bag approaches being full.
    Type: Grant
    Filed: August 3, 2017
    Date of Patent: November 16, 2021
    Inventors: James Walsh, Therese Walsh
  • Publication number: 20210308275
    Abstract: A conjugate comprising a protein or a peptide, a linker and an active agent, wherein the linker comprises the moiety of formula (III): (III) wherein two of A1, A2 and A3 are N and the other of A1, A2 and A3 is CH; X is selected from N, O and S, and Pep indicates where the moiety is linked to the protein or peptide, either directly or indirectly.
    Type: Application
    Filed: July 31, 2018
    Publication date: October 7, 2021
    Inventors: Jeremy Stephen Parker, Hannah Fiona Sore, David Robert Spring, Stephen James Walsh
  • Patent number: 11117251
    Abstract: An adjustable carpentry reveal tool includes a base member, and a sliding member slidably engaged to the base member wherein the sliding member is configured to be selectively displaced along predetermined linear increments relative to the base member without becoming detached from the base member. Advantageously, the sliding member is configured to simultaneously mark a pair of adjustable reveals along the x-axis and the y-axis of the trim corner of the frame opening without having to fasten the base member to the trim corner of the frame opening. Notably, in this manner, the adjustable reveals are defined between an outermost periphery of the base member and an outermost periphery of the sliding member.
    Type: Grant
    Filed: November 5, 2018
    Date of Patent: September 14, 2021
    Inventors: Bedri Arifi, James Walsh
  • Patent number: 11087910
    Abstract: Theoretical and practical constraints disallow direct determination of the structure of the atomic nucleus. Contained herein is a magnet model of the atomic nucleus, derived from considerations of charge density, RMS charge radii, magnetic moments, and nucleon binding energy. These physical properties point to a sequential, alternating up and down quark structure modeled in the present invention by an array of magnets alternating in polarity. The summation of the pull forces of the two magnet poles is unequal, and when two such magnet arrays are placed opposite one another in magnetic potential energy barrier assembly, the two arrays repel at a distance and attract when near one another. In one embodiment, the ratio of the maximum attractive force to the maximum repulsive force very closely approximates the strong force constant 137. This invention serves as a demonstration of the Coulomb barrier for the student, and a potentially useful model for probing the forces and structure of the atomic nucleus.
    Type: Grant
    Filed: March 23, 2020
    Date of Patent: August 10, 2021
    Inventor: Raymond James Walsh
  • Patent number: 11061620
    Abstract: The present disclosure generally relates to limiting bandwidth in storage devices. One or more bandwidth quality of services levels may be selected and associated with commands according to service level agreements, which may prioritize some commands over others. A storage device fetches and executes one or more the commands. Each of the commands is associated with a bandwidth quality of service level. After executing the commands and transferring the data to a host device, the storage device may delay writing a completion entry corresponding to the executed commands to a completion queue based on the associated bandwidth quality of service level of the commands. The device may then delay revealing the completion entry by delaying updating a completion queue head pointer. The device may further delay sending an interrupt signal to the host device based on the associated bandwidth quality of service level of the commands.
    Type: Grant
    Filed: March 27, 2020
    Date of Patent: July 13, 2021
    Inventors: Daniel L. Helmick, James Walsh
  • Publication number: 20210162625
    Abstract: An extruder that includes: an extruder barrel with an inlet end and a discharge end; a rotatable screw element disposed axially within the barrel with a screw inlet end proximate the inlet end and a screw discharge end proximate the discharge end of the barrel; a shaft extending axially through the screw element and comprising a central bore with an opening proximate to the inlet end of the barrel and extending through the shaft to a closed terminal end; and a coolant delivery conduit extending axially within the bore comprising a coolant inlet end proximate to the inlet end of the barrel and a coolant discharge end. The closed terminal end of the bore is located at a predetermined distance upstream from the screw discharge end. Further, the coolant discharge end is located within the bore and proximate to the closed terminal end of the bore.
    Type: Application
    Filed: July 11, 2019
    Publication date: June 3, 2021
    Inventor: Conor James Walsh
  • Patent number: 10979521
    Abstract: A global architecture (GLP), as disclosed herein, is based on the thin server architectural pattern; it delivers all its services in the form of web services and there are no user interface components executed on the GLP. Each web service exposed by the GLP is stateless, which allows the GLP to be highly scalable. The GLP is further decomposed into components. Each component is a microservice, making the overall architecture fully decoupled. Each microservice has fail-over nodes and can scale up on demand. This means the GLP has no single point of failure, making the platform both highly scalable and available. The GLP architecture provides the capability to build and deploy a microservice instance for each course-recipient-user combination. Because each student interacts with their own microservice, this makes the GLP scale up to the limit of cloud resources available—i.e. near infinity.
    Type: Grant
    Filed: June 27, 2018
    Date of Patent: April 13, 2021
    Assignee: PEARSON MANAGEMENT SERVICES LIMITED
    Inventors: James Walsh, Suhail Khaki
  • Patent number: 10946551
    Abstract: In-line inspection and control system to in-situ monitor an extrudate during extrusion. A light beam illuminates a line on the outside circumference of the extrudate skin recording the curvature. A master profile of the illuminated defect-free skin is recorded and compared to successive monitoring of the illuminated skin. Differences from the comparison indicate skin and/or shape defects. A real-time feedback to automatically adjust process control hardware reduces or eliminates the skin and shape defects based on the monitoring and comparison.
    Type: Grant
    Filed: November 20, 2015
    Date of Patent: March 16, 2021
    Assignee: Corning Incorporated
    Inventors: Joseph Henry Citriniti, Conor James Walsh
  • Publication number: 20210070552
    Abstract: A method and apparatus are provided for sorting items to a plurality of sort destinations. The items are fed into the apparatus at an input station having a scanning station. The scanning station evaluates one or more characteristics of each item. The items are then loaded onto one of a plurality of independently controlled delivery vehicles. The delivery vehicles are individually driven to sort destinations. Once at the appropriate sort destination, the delivery vehicle ejects the item to the sort destination and returns to receive another item to be delivered. A re-induction conveyor may be provided for receiving select items from the vehicles and conveying the items back to the input station for re-processing. Additionally, a controller is provided to control the movement of the vehicles based on a characteristic each item being delivered by each vehicle. The system may also include vehicles having edge-detection assemblies for detecting items being loaded onto or discharged from the vehicles.
    Type: Application
    Filed: November 10, 2020
    Publication date: March 11, 2021
    Inventors: Monty McVaugh, Alexander Stevens, Robert DeWitt, James Walsh, Gregory Wilson
  • Patent number: 10880392
    Abstract: A global architecture (GLP), as disclosed herein, is based on the thin server architectural pattern; it delivers all its services in the form of web services and there are no user interface components executed on the GLP. Each web service exposed by the GLP is stateless, which allows the GLP to be highly scalable. The GLP is further decomposed into components. Each component is a microservice, making the overall architecture fully decoupled. Each microservice has fail-over nodes and can scale up on demand. This means the GLP has no single point of failure, making the platform both highly scalable and available. The GLP architecture provides the capability to build and deploy a microservice instance for each course-recipient-user combination. Because each student interacts with their own microservice, this makes the GLP scale up to the limit of cloud resources available—i.e. near infinity.
    Type: Grant
    Filed: June 27, 2018
    Date of Patent: December 29, 2020
    Assignee: PEARSON MANAGEMENT SERVICES LIMITED
    Inventors: James Walsh, Suhail Khaki
  • Patent number: 10864100
    Abstract: Orthopedic devices may include rigid members for coupling to portions of a limb that includes a joint, and a cable that couples to the rigid members and extends up to a powered element. The orthopedic devices are configured to produce beneficial forces using the rigid member and the cable, which beneficial forces are translated to the wearer. The orthopedic devices include control systems that generate control signals for controlling the powered element.
    Type: Grant
    Filed: April 10, 2015
    Date of Patent: December 15, 2020
    Assignee: President and Fellows of Harvard College
    Inventors: Conor James Walsh, Alan T. Asbeck, Matthew W. Yarri, Jillian Christine Cochran, Stefano Marco Maria De Rossi
  • Patent number: 10865053
    Abstract: A method and apparatus are provided for sorting items to a plurality of sort destinations. The items are fed into the apparatus at an input station having a scanning station. The scanning station evaluates one or more characteristics of each item. The items are then loaded onto one of a plurality of independently controlled delivery vehicles. The delivery vehicles are individually driven to sort destinations. Once at the appropriate sort destination, the delivery vehicle ejects the item to the sort destination and returns to receive another item to be delivered. A re-induction conveyor may be provided for receiving select items from the vehicles and conveying the items back to the input station for re-processing. Additionally, a controller is provided to control the movement of the vehicles based on a characteristic each item being delivered by each vehicle. The system may also include vehicles having an assembly for detecting items being loaded onto or discharged from the vehicles.
    Type: Grant
    Filed: October 30, 2019
    Date of Patent: December 15, 2020
    Assignee: OPEX Corporation
    Inventors: Robert R. DeWitt, Alexander Stevens, Monty McVaugh, James Walsh, Gregory Wilson
  • Patent number: 10855794
    Abstract: A global architecture (GLP), as disclosed herein, is based on the thin server architectural pattern; it delivers all its services in the form of web services and there are no user interface components executed on the GLP. Each web service exposed by the GLP is stateless, which allows the GLP to be highly scalable. The GLP is further decomposed into components. Each component is a microservice, making the overall architecture fully decoupled. Each microservice has fail-over nodes and can scale up on demand. This means the GLP has no single point of failure, making the platform both highly scalable and available. The GLP architecture provides the capability to build and deploy a microservice instance for each course-recipient-user combination. Because each student interacts with their own microservice, this makes the GLP scale up to the limit of cloud resources available—i.e. near infinity.
    Type: Grant
    Filed: June 27, 2018
    Date of Patent: December 1, 2020
    Assignee: PEARSON MANAGEMENT SERVICES LIMITED
    Inventors: James Walsh, Suhail Khaki
  • Publication number: 20200374362
    Abstract: A global architecture (GLP), as disclosed herein, is based on the thin server architectural pattern; it delivers all its services in the form of web services and there are no user interface components executed on the GLP. Each web service exposed by the GLP is stateless, which allows the GLP to be highly scalable. The GLP is further decomposed into components. Each component is a microservice, making the overall architecture fully decoupled. Each microservice has fail-over nodes and can scale up on demand. This means the GLP has no single point of failure, making the platform both highly scalable and available. The GLP architecture provides the capability to build and deploy a microservice instance for each course-recipient-user combination. Because each student interacts with their own microservice, this makes the GLP scale up to the limit of cloud resources available—i.e. near infinity.
    Type: Application
    Filed: July 20, 2020
    Publication date: November 26, 2020
    Inventors: James Walsh, Suhail Khaki
  • Patent number: 10841392
    Abstract: A global architecture (GLP), as disclosed herein, is based on the thin server architectural pattern; it delivers all its services in the form of web services and there are no user interface components executed on the GLP. Each web service exposed by the GLP is stateless, which allows the GLP to be highly scalable. The GLP is further decomposed into components. Each component is a microservice, making the overall architecture fully decoupled. Each microservice has fail-over nodes and can scale up on demand. This means the GLP has no single point of failure, making the platform both highly scalable and available. The GLP architecture provides the capability to build and deploy a microservice instance for each course-recipient-user combination. Because each student interacts with their own microservice, this makes the GLP scale up to the limit of cloud resources available—i.e. near infinity.
    Type: Grant
    Filed: June 27, 2018
    Date of Patent: November 17, 2020
    Assignee: PEARSON MANAGEMENT SERVICES LIMITED
    Inventors: James Walsh, Suhail Khaki
  • Publication number: 20200351369
    Abstract: A global architecture (GLP), as disclosed herein, is based on the thin server architectural pattern; it delivers all its services in the form of web services and there are no user interface components executed on the GLP. Each web service exposed by the GLP is stateless, which allows the GLP to be highly scalable. The GLP is further decomposed into components. Each component is a microservice, making the overall architecture fully decoupled. Each microservice has fail-over nodes and can scale up on demand. This means the GLP has no single point of failure, making the platform both highly scalable and available. The GLP architecture provides the capability to build and deploy a microservice instance for each course-recipient-user combination. Because each student interacts with their own microservice, this makes the GLP scale up to the limit of cloud resources available—i.e. near infinity.
    Type: Application
    Filed: July 21, 2020
    Publication date: November 5, 2020
    Inventors: James Walsh, Suhail Khaki