Patents by Inventor John Moody

John Moody 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: 12592772
    Abstract: A free-space optical communication system includes an optical phased array (OPA) photonic integrated chip, a transceiver photonic integrated chip, and one or more processors. The OPA chip includes a plurality of array elements and a plurality of phase shifters. The transceiver chip includes one or more transmitter components and one or more receiver components. The one or more processors are configured to transmit a first signal via the OPA chip and the transceiver chip, and receive a second signal via the OPA chip and the transceiver chip.
    Type: Grant
    Filed: April 23, 2024
    Date of Patent: March 31, 2026
    Assignee: TAARA CONNECT, INC.
    Inventors: Baris Ibrahim Erkmen, Devin Brinkley, Paul Epp, John Moody
  • Patent number: 12132523
    Abstract: A system includes a transmitter configured to output an optical signal. The transmitter includes a seed laser, an optical array including a plurality of array elements, and a plurality of phase shifters in a multi-layer arrangement. The multi-layer arrangement includes a plurality of layers between the seed laser and the optical array, wherein a first layer of the plurality of layers transmits light to a second layer of the plurality of layers. The first layer has fewer phase shifters than the second layer. The multi-layer arrangement also includes a plurality of branches wherein each branch includes a phase shifter from each of the plurality of layers connected in series between the seed laser and one of the plurality of array elements. Each phase shifter is configured to shift the optical signal incrementally to amass a total phase shift for each of the plurality of array elements.
    Type: Grant
    Filed: September 27, 2023
    Date of Patent: October 29, 2024
    Assignee: X DEVELOPMENT LLC
    Inventors: Baris Ibrahim Erkmen, Devin Brinkley, Paul Epp, John Moody
  • Publication number: 20240275484
    Abstract: A free-space optical communication system includes an optical phased array (OPA) photonic integrated chip, a transceiver photonic integrated chip, and one or more processors. The OPA chip includes a plurality of array elements and a plurality of phase shifters. The transceiver chip includes one or more transmitter components and one or more receiver components. The one or more processors are configured to transmit a first signal via the OPA chip and the transceiver chip, and receive a second signal via the OPA chip and the transceiver chip.
    Type: Application
    Filed: April 23, 2024
    Publication date: August 15, 2024
    Inventors: Baris Ibrahim Erkmen, Devin Brinkley, Paul Epp, John Moody
  • Patent number: 11996886
    Abstract: A free-space optical communication system includes an optical phased array (OPA) photonic integrated chip, a transceiver photonic integrated chip, and one or more processors. The OPA chip includes a plurality of array elements and a plurality of phase shifters. The transceiver chip includes one or more transmitter components and one or more receiver components. The one or more processors are configured to transmit a first signal via the OPA chip and the transceiver chip, and receive a second signal via the OPA chip and the transceiver chip.
    Type: Grant
    Filed: August 18, 2022
    Date of Patent: May 28, 2024
    Assignee: X Development LLC
    Inventors: Baris Ibrahim Erkmen, Devin Brinkley, Paul Epp, John Moody
  • Publication number: 20240022331
    Abstract: A system includes a transmitter configured to output an optical signal. The transmitter includes a seed laser, an optical array including a plurality of array elements, and a plurality of phase shifters in a multi-layer arrangement. The multi-layer arrangement includes a plurality of layers between the seed laser and the optical array, wherein a first layer of the plurality of layers transmits light to a second layer of the plurality of layers. The first layer has fewer phase shifters than the second layer. The multi-layer arrangement also includes a plurality of branches wherein each branch includes a phase shifter from each of the plurality of layers connected in series between the seed laser and one of the plurality of array elements. Each phase shifter is configured to shift the optical signal incrementally to amass a total phase shift for each of the plurality of array elements.
    Type: Application
    Filed: September 27, 2023
    Publication date: January 18, 2024
    Inventors: Baris Ibrahim Erkmen, Devin Brinkley, Paul Epp, John Moody
  • Patent number: 11804906
    Abstract: A system includes a transmitter configured to output an optical signal. The transmitter includes a seed laser, an optical array including a plurality of array elements, and a plurality of phase shifters in a multi-layer arrangement. The multi-layer arrangement includes a plurality of layers between the seed laser and the optical array, wherein a first layer of the plurality of layers transmits light to a second layer of the plurality of layers. The first layer has fewer phase shifters than the second layer. The multi-layer arrangement also includes a plurality of branches wherein each branch includes a phase shifter from each of the plurality of layers connected in series between the seed laser and one of the plurality of array elements. Each phase shifter is configured to shift the optical signal incrementally to amass a total phase shift for each of the plurality of array elements.
    Type: Grant
    Filed: October 20, 2021
    Date of Patent: October 31, 2023
    Assignee: X DEVELOPMENT LLC
    Inventors: Baris Ibrahim Erkmen, Devin Brinkley, Paul Epp, John Moody
  • Publication number: 20230085936
    Abstract: A free-space optical communication system includes an optical phased array (OPA) photonic integrated chip, a transceiver photonic integrated chip, and one or more processors. The OPA chip includes a plurality of array elements and a plurality of phase shifters. The transceiver chip includes one or more transmitter components and one or more receiver components. The one or more processors are configured to transmit a first signal via the OPA chip and the transceiver chip, and receive a second signal via the OPA chip and the transceiver chip.
    Type: Application
    Filed: August 18, 2022
    Publication date: March 23, 2023
    Inventors: Baris Ibrahim Erkmen, Devin Brinkley, Paul Epp, John Moody
  • Publication number: 20220385372
    Abstract: A system includes a transmitter configured to output an optical signal. The transmitter includes a seed laser, an optical array including a plurality of array elements, and a plurality of phase shifters in a multi-layer arrangement. The multi-layer arrangement includes a plurality of layers between the seed laser and the optical array, wherein a first layer of the plurality of layers transmits light to a second layer of the plurality of layers. The first layer has fewer phase shifters than the second layer. The multi-layer arrangement also includes a plurality of branches wherein each branch includes a phase shifter from each of the plurality of layers connected in series between the seed laser and one of the plurality of array elements. Each phase shifter is configured to shift the optical signal incrementally to amass a total phase shift for each of the plurality of array elements.
    Type: Application
    Filed: October 20, 2021
    Publication date: December 1, 2022
    Inventors: Baris Ibrahim Erkmen, Devin Brinkley, Paul Epp, John Moody
  • Patent number: 11381309
    Abstract: Aspects of the disclosure provide an optical communication system. The system may include a receiver lens system configured to receive a light beam from a remote optical communication system and direct the light beam to a photodetector. The system may also include the photodetector. The photodetector may be configured to convert the received light beam into an electrical signal, and the photodetector may be positioned at a focal plane of the receiver lens system. The system may also include a phase-aberrating element arranged with respect to the receiver lens system and the photodetector such that the phase-aberrating element is configured to provide uniform angular irradiance at the focal plane of the receiver lens system.
    Type: Grant
    Filed: April 21, 2021
    Date of Patent: July 5, 2022
    Assignee: X DEVELOPMENT LLC
    Inventors: Nam-hyong Kim, Baris Erkmen, Andrei Kazmierski, Devin Brinkley, John Moody, Markus Demartini, Wei-cheng Lai, Halleh Balch
  • Publication number: 20210242940
    Abstract: Aspects of the disclosure provide an optical communication system. The system may include a receiver lens system configured to receive a light beam from a remote optical communication system and direct the light beam to a photodetector. The system may also include the photodetector. The photodetector may be configured to convert the received light beam into an electrical signal, and the photodetector may be positioned at a focal plane of the receiver lens system. The system may also include a phase-aberrating element arranged with respect to the receiver lens system and the photodetector such that the phase-aberrating element is configured to provide uniform angular irradiance at the focal plane of the receiver lens system.
    Type: Application
    Filed: April 21, 2021
    Publication date: August 5, 2021
    Inventors: Nam-hyong Kim, Baris Erkmen, Andrei Kazmierski, Devin Brinkley, John Moody, Markus Demartini, Wei-cheng Lai, Halleh Balch
  • Publication number: 20210159978
    Abstract: Aspects of the disclosure provide an optical communication system. The system may include a receiver lens system configured to receive a light beam from a remote optical communication system and direct the light beam to a photodetector. The system may also include the photodetector. The photodetector may be configured to convert the received light beam into an electrical signal, and the photodetector may be positioned at a focal plane of the receiver lens system. The system may also include a phase-aberrating element arranged with respect to the receiver lens system and the photodetector such that the phase-aberrating element is configured to provide uniform angular irradiance at the focal plane of the receiver lens system.
    Type: Application
    Filed: November 27, 2019
    Publication date: May 27, 2021
    Inventors: Nam-hyong Kim, Baris Erkmen, Andrei Kazmierski, Devin Brinkley, John Moody, Markus Demartini, Wei-cheng Lai, Halleh Balch
  • Patent number: 11018765
    Abstract: Aspects of the disclosure provide an optical communication system. The system may include a receiver lens system configured to receive a light beam from a remote optical communication system and direct the light beam to a photodetector. The system may also include the photodetector. The photodetector may be configured to convert the received light beam into an electrical signal, and the photodetector may be positioned at a focal plane of the receiver lens system. The system may also include a phase-aberrating element arranged with respect to the receiver lens system and the photodetector such that the phase-aberrating element is configured to provide uniform angular irradiance at the focal plane of the receiver lens system.
    Type: Grant
    Filed: November 27, 2019
    Date of Patent: May 25, 2021
    Assignee: X Development LLC
    Inventors: Nam-hyong Kim, Baris Erkmen, Andrei Kazmierski, Devin Brinkley, John Moody, Markus Demartini, Wei-cheng Lai, Halleh Balch
  • Patent number: 8214102
    Abstract: One embodiment is directed to providing access between external systems and embedded vehicle electronic systems. That is, an interface module may receive information from a system external to the vehicle, determine an embedded system of the vehicle to which to provide the information, and provide the information to the embedded system. Similarly, the interface module may receive information a embedded electronic systems of a vehicle, determine a system external the vehicle to which to provide the information, and provide the information to the external system.
    Type: Grant
    Filed: March 8, 2011
    Date of Patent: July 3, 2012
    Assignee: Lockheed Martin Corporation
    Inventors: Kenneth B. Donovan, Michael C. Dapp, Jeremy Impson, John Moody
  • Patent number: 8070368
    Abstract: A hermetically packaged integrated optical circuit includes an integrated optical circuit and a hermetically sealed container, which defines a volume. The integrated optical circuit is secured within the volume. The hermetically packaged integrated optical circuit further includes a fill gas comprising oxygen disposed within the volume of the hermetically sealed container.
    Type: Grant
    Filed: July 20, 2010
    Date of Patent: December 6, 2011
    Assignee: L-3 Communications Corporation
    Inventors: John Moody, Robert Morris
  • Patent number: 8041477
    Abstract: One embodiment is directed to providing access between external systems and embedded vehicle electronic systems. That is, an interface module may receive information from a system external to the vehicle, determine an embedded system of the vehicle to which to provide the information, and provide the information to the embedded system. Similarly, the interface module may receive information a embedded electronic systems of a vehicle, determine a system external the vehicle to which to provide the information, and provide the information to the external system.
    Type: Grant
    Filed: November 21, 2006
    Date of Patent: October 18, 2011
    Assignee: Lockheed Martin Corporation
    Inventors: Kenneth B. Donovan, Michael C. Dapp, Jeremy Impson, John Moody
  • Publication number: 20110162063
    Abstract: One embodiment is directed to providing access between external systems and embedded vehicle electronic systems. That is, an interface module may receive information from a system external to the vehicle, determine an embedded system of the vehicle to which to provide the information, and provide the information to the embedded system. Similarly, the interface module may receive information a embedded electronic systems of a vehicle, determine a system external the vehicle to which to provide the information, and provide the information to the external system.
    Type: Application
    Filed: March 8, 2011
    Publication date: June 30, 2011
    Applicant: Lockheed Martin Corporation
    Inventors: Kenneth B. Donovan, Michael C. Dapp, Jeremy Impson, John Moody
  • Publication number: 20100012227
    Abstract: A lumber processing system for cutting lumber into predetermined shapes broadly includes a scanning section, a computer section and a cutting section. Incoming lumber is scanned in the scanning section using two-color cameras capturing images first under normal lighting and second under ultraviolet (black) lighting for illumination of pre-marked defects. Images are processed in the computer section to produce a polygonal model of the lumber. A series of auxiliary packing computers review the model and determine separate solutions for cutting the lumber. Parts are then ‘punched’ from the lumber in the cutting section utilizing high power lasers cutting from both sides of the lumber simultaneously.
    Type: Application
    Filed: March 30, 2009
    Publication date: January 21, 2010
    Inventors: Greg Zielke, John Moody
  • Publication number: 20080120366
    Abstract: One embodiment is directed to providing access between external systems and embedded vehicle electronic systems. That is, an interface module may receive information from a system external to the vehicle, determine an embedded system of the vehicle to which to provide the information, and provide the information to the embedded system. Similarly, the interface module may receive information a embedded electronic systems of a vehicle, determine a system external the vehicle to which to provide the information, and provide the information to the external system.
    Type: Application
    Filed: November 21, 2006
    Publication date: May 22, 2008
    Applicant: Lockheed Martin Corporation
    Inventors: Kenneth B. Donovan, Michael C. Dapp, Jeremy Impson, John Moody
  • Publication number: 20080010631
    Abstract: According to methods, apparatuses, and computer program products described by way of non-limiting examples presented herein, a computer system operates as an intelligent node in a distributed network. In one or more embodiments, the installation and execution of a node operating computer program product (“node software”) on a computer system configures that computer system to operate as an intelligent node in a distributed network. The computer system may reside at the edge of the network and thus may include a number of physical world sensors and/or actuators that represent valuable but hard-to-reach data sources/sinks from the perspective of the network at large. The node software operates the computer system as an edge application server and enterprise service bus, intelligently processing data from sensors, actuators, and other edge systems and devices. Other applications, such as server-based data processing and storing, are also easily implemented via the node software.
    Type: Application
    Filed: September 21, 2007
    Publication date: January 10, 2008
    Applicant: AUGUSTA SYSTEMS, INC.
    Inventors: Clint Harvey, John Moody, Jackie Williams, Patrick Esposito, George Thomas, Jared Reed, Brian Kesecker, Patrick Esposito
  • Publication number: 20070074209
    Abstract: A system in accordance with the present invention automatically designs a software component to perform a defined task having task inputs and task outputs. The system includes a plurality of modules, a first comparator, a selector, and a second comparator. Each of the plurality of modules has module inputs and module outputs. The first comparator compares the module outputs to the task outputs. The first comparator determines whether the task outputs are achievable by the plurality of modules. The first comparator determines whether at least two of the plurality of modules satisfy one of the task outputs. The selector selects a preferred module from the at least two of the plurality of modules. The second comparator compares at least one of the task inputs to inputs of the preferred module. The second comparator determines whether the inputs of the preferred module are included within the task inputs. The first comparator receives inputs of the preferred module that are not included within the task inputs.
    Type: Application
    Filed: July 25, 2005
    Publication date: March 29, 2007
    Inventors: Adam Jung, John Moody, Robert Szczerba, Joel Tleon