Patents by Inventor Anthony Visco

Anthony Visco 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).

  • Publication number: 20250381350
    Abstract: An insufflation system for creating a high-flow, constant pressure pneumoperitoneum, the system including: a gas flow distribution device including: a housing defining an insufflation chamber; an inlet port on the housing and configured to be connected to an insufflator to provide insufflation gas from the insufflator to the insufflation chamber; and a plurality of outlet ports on the housing configured to be connected to a plurality of trocars, each outlet port configured to be connected to a dedicated one of the plurality of trocars, to concurrently distribute the insufflation gas from the insufflation chamber to each of the plurality of trocars.
    Type: Application
    Filed: August 28, 2025
    Publication date: December 18, 2025
    Inventors: Anthony Visco, Zachary Visco
  • Patent number: 12420036
    Abstract: An insufflation system for creating a high-flow, constant pressure pneumoperitoneum, the system including: a gas flow distribution device including: a housing defining an insufflation chamber; an inlet port on the housing and configured to be connected to an insufflator to provide insufflation gas from the insufflator to the insufflation chamber; and a plurality of outlet ports on the housing configured to be connected to a plurality of trocars, each outlet port configured to be connected to a dedicated one of the plurality of trocars, to concurrently distribute the insufflation gas from the insufflation chamber to each of the plurality of trocars.
    Type: Grant
    Filed: September 30, 2022
    Date of Patent: September 23, 2025
    Assignees: Duke University
    Inventors: Anthony Visco, Zachary Visco
  • Publication number: 20240261519
    Abstract: An insufflation system for creating a high-flow, constant pressure pneumoperitoneum, the system including: a gas flow distribution device including: a housing defining an insufflation chamber: an inlet port on the housing and configured to be connected to an insufflator to provide insufflation gas from the insufflator to the insufflation chamber; and a plurality of outlet ports on the housing configured to be connected to a plurality of trocars, each outlet port configured to be connected to a dedicated one of the plurality of trocars, to concurrently distribute the insufflation gas from the insufflation chamber to each of the plurality of trocars.
    Type: Application
    Filed: September 30, 2022
    Publication date: August 8, 2024
    Inventors: Anthony Visco, Zachary Visco
  • Patent number: 11994367
    Abstract: Embodiments include active protection systems and methods for an aerial platform. An onboard system includes radar modules, detects aerial vehicles within a threat range of the aerial platform, and determines if any of the aerial vehicles are an aerial threat. The onboard system also determines an intercept vector to the aerial threat, communicates the intercept vector to an eject vehicle, and causes the eject vehicle to be ejected from the aerial platform to intercept the aerial threat. The eject vehicle includes alignment thrusters to rotate a longitudinal axis of the eject vehicle to substantially align with the intercept vector, a rocket motor to accelerate the eject vehicle along an intercept vector, divert thrusters to divert the eject vehicle in a direction substantially perpendicular to the intercept vector, and attitude control thrusters to make adjustments to the attitude of the eject vehicle.
    Type: Grant
    Filed: April 25, 2022
    Date of Patent: May 28, 2024
    Assignee: Northrop Grumman Systems Corporation
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Patent number: 11947349
    Abstract: Embodiments include engagement management systems and methods for managing engagement with aerial threats. Such systems include radar modules and detect aerial threats within a threat range of a base location. The systems also track intercept vehicles and control flight paths and detonation capabilities of the intercept vehicles. The systems are capable of communication between multiple engagement management systems and coordinated control of multiple intercept vehicles.
    Type: Grant
    Filed: March 16, 2021
    Date of Patent: April 2, 2024
    Assignee: Northrop Grumman Systems Corporation
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Publication number: 20220412694
    Abstract: Embodiments include active protection systems and methods for an aerial platform. An onboard system includes radar modules, detects aerial vehicles within a threat range of the aerial platform, and determines if any of the aerial vehicles are an aerial threat. The onboard system also determines an intercept vector to the aerial threat, communicates the intercept vector to an eject vehicle, and causes the eject vehicle to be ejected from the aerial platform to intercept the aerial threat. The eject vehicle includes alignment thrusters to rotate a longitudinal axis of the eject vehicle to substantially align with the intercept vector, a rocket motor to accelerate the eject vehicle along an intercept vector, divert thrusters to divert the eject vehicle in a direction substantially perpendicular to the intercept vector, and attitude control thrusters to make adjustments to the attitude of the eject vehicle.
    Type: Application
    Filed: April 25, 2022
    Publication date: December 29, 2022
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Patent number: 11313650
    Abstract: Embodiments include active protection systems and methods for an aerial platform. An onboard system includes radar modules, detects aerial vehicles within a threat range of the aerial platform, and determines if any of the aerial vehicles are an aerial threat. The onboard system also determines an intercept vector to the aerial threat, communicates the intercept vector to an eject vehicle, and causes the eject vehicle to be ejected from the aerial platform to intercept the aerial threat. The eject vehicle includes alignment thrusters to rotate a longitudinal axis of the eject vehicle to substantially align with the intercept vector, a rocket motor to accelerate the eject vehicle along an intercept vector, divert thrusters to divert the eject vehicle in a direction substantially perpendicular to the intercept vector, and attitude control thrusters to make adjustments to the attitude of the eject vehicle.
    Type: Grant
    Filed: September 26, 2019
    Date of Patent: April 26, 2022
    Assignee: Northrop Grumman Systems Corporation
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Publication number: 20220026179
    Abstract: Embodiments include engagement management systems and methods for managing engagement with aerial threats. Such systems include radar modules and detect aerial threats within a threat range of a base location. The systems also track intercept vehicles and control flight paths and detonation capabilities of the intercept vehicles. The systems are capable of communication between multiple engagement management systems and coordinated control of multiple intercept vehicles.
    Type: Application
    Filed: March 16, 2021
    Publication date: January 27, 2022
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Patent number: 10948909
    Abstract: Embodiments include engagement management systems and methods for managing engagement with aerial threats. Such systems include radar modules and detect aerial threats within a threat range of a base location. The systems also track intercept vehicles and control flight paths and detonation capabilities of the intercept vehicles. The systems are capable of communication between multiple engagement management systems and coordinated control of multiple intercept vehicles.
    Type: Grant
    Filed: March 8, 2019
    Date of Patent: March 16, 2021
    Assignee: Northrop Grumman Innovation Systems, Inc.
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Publication number: 20200166311
    Abstract: Embodiments include active protection systems and methods for an aerial platform. An onboard system includes radar modules, detects aerial vehicles within a threat range of the aerial platform, and determines if any of the aerial vehicles are an aerial threat. The onboard system also determines an intercept vector to the aerial threat, communicates the intercept vector to an eject vehicle, and causes the eject vehicle to be ejected from the aerial platform to intercept the aerial threat. The eject vehicle includes alignment thrusters to rotate a longitudinal axis of the eject vehicle to substantially align with the intercept vector, a rocket motor to accelerate the eject vehicle along an intercept vector, divert thrusters to divert the eject vehicle in a direction substantially perpendicular to the intercept vector, and attitude control thrusters to make adjustments to the attitude of the eject vehicle.
    Type: Application
    Filed: September 26, 2019
    Publication date: May 28, 2020
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Patent number: 10436554
    Abstract: Embodiments include active protection systems and methods for an aerial platform. An onboard system includes radar modules, detects aerial vehicles within a threat range of the aerial platform, and determines if any of the aerial vehicles are an aerial threat. The onboard system also determines an intercept vector to the aerial threat, communicates the intercept vector to an eject vehicle, and causes the eject vehicle to be ejected from the aerial platform to intercept the aerial threat. The eject vehicle includes alignment thrusters to rotate a longitudinal axis of the eject vehicle to substantially align with the intercept vector, a rocket motor to accelerate the eject vehicle along an intercept vector, divert thrusters to divert the eject vehicle in a direction substantially perpendicular to the intercept vector, and attitude control thrusters to make adjustments to the attitude of the eject vehicle.
    Type: Grant
    Filed: January 20, 2017
    Date of Patent: October 8, 2019
    Assignee: Northrop Grumman Innovation Systems, Inc.
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Publication number: 20190258241
    Abstract: Embodiments include engagement management systems and methods for managing engagement with aerial threats. Such systems include radar modules and detect aerial threats within a threat range of a base location. The systems also track intercept vehicles and control flight paths and detonation capabilities of the intercept vehicles. The systems are capable of communication between multiple engagement management systems and coordinated control of multiple intercept vehicles.
    Type: Application
    Filed: March 8, 2019
    Publication date: August 22, 2019
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Patent number: 10228689
    Abstract: Embodiments include engagement management systems and methods for managing engagement with aerial threats. Such systems include radar modules and detect aerial threats within a threat range of a base location. The systems also track intercept vehicles and control flight paths and detonation capabilities of the intercept vehicles. The systems are capable of communication between multiple engagement management systems and coordinated control of multiple intercept vehicles.
    Type: Grant
    Filed: November 18, 2016
    Date of Patent: March 12, 2019
    Assignee: Northrop Grumman Innovation Systems, Inc.
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Publication number: 20170328684
    Abstract: Embodiments include active protection systems and methods for an aerial platform. An onboard system includes radar modules, detects aerial vehicles within a threat range of the aerial platform, and determines if any of the aerial vehicles are an aerial threat. The onboard system also determines an intercept vector to the aerial threat, communicates the intercept vector to an eject vehicle, and causes the eject vehicle to be ejected from the aerial platform to intercept the aerial threat. The eject vehicle includes alignment thrusters to rotate a longitudinal axis of the eject vehicle to substantially align with the intercept vector, a rocket motor to accelerate the eject vehicle along an intercept vector, divert thrusters to divert the eject vehicle in a direction substantially perpendicular to the intercept vector, and attitude control thrusters to make adjustments to the attitude of the eject vehicle.
    Type: Application
    Filed: January 20, 2017
    Publication date: November 16, 2017
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Publication number: 20170300047
    Abstract: Embodiments include engagement management systems and methods for managing engagement with aerial threats. Such systems include radar modules and detect aerial threats within a threat range of a base location. The systems also track intercept vehicles and control flight paths and detonation capabilities of the intercept vehicles. The systems are capable of communication between multiple engagement management systems and coordinated control of multiple intercept vehicles.
    Type: Application
    Filed: November 18, 2016
    Publication date: October 19, 2017
    Applicants: Orbital ATK, Inc., Orbital ATK, Inc.
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Patent number: 9551552
    Abstract: Embodiments include active protection systems and methods for an aerial platform. An onboard system includes radar modules, detects aerial vehicles within a threat range of the aerial platform, and determines if any of the aerial vehicles are an aerial threat. The onboard system also determines an intercept vector to the aerial threat, communicates the intercept vector to an eject vehicle, and causes the eject vehicle to be ejected from the aerial platform to intercept the aerial threat. The eject vehicle includes alignment thrusters to rotate a longitudinal axis of the eject vehicle to substantially align with the intercept vector, a rocket motor to accelerate the eject vehicle along an intercept vector, divert thrusters to divert the eject vehicle in a direction substantially perpendicular to the intercept vector, and attitude control thrusters to make adjustments to the attitude of the eject vehicle.
    Type: Grant
    Filed: March 15, 2013
    Date of Patent: January 24, 2017
    Assignee: Orbital ATK, Inc.
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Patent number: 9501055
    Abstract: Embodiments include engagement management systems and methods for managing engagement with aerial threats. Such systems include radar modules and detect aerial threats within a threat range of a base location. The systems also track intercept vehicles and control flight paths and detonation capabilities of the intercept vehicles. The systems are capable of communication between multiple engagement management systems and coordinated control of multiple intercept vehicles.
    Type: Grant
    Filed: March 15, 2013
    Date of Patent: November 22, 2016
    Assignee: ORBITAL ATK, INC.
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Publication number: 20160047628
    Abstract: Embodiments include active protection systems and methods for an aerial platform. An onboard system includes radar modules, detects aerial vehicles within a threat range of the aerial platform, and determines if any of the aerial vehicles are an aerial threat. The onboard system also determines an intercept vector to the aerial threat, communicates the intercept vector to an eject vehicle, and causes the eject vehicle to be ejected from the aerial platform to intercept the aerial threat. The eject vehicle includes alignment thrusters to rotate a longitudinal axis of the eject vehicle to substantially align with the intercept vector, a rocket motor to accelerate the eject vehicle along an intercept vector, divert thrusters to divert the eject vehicle in a direction substantially perpendicular to the intercept vector, and attitude control thrusters to make adjustments to the attitude of the eject vehicle.
    Type: Application
    Filed: March 15, 2013
    Publication date: February 18, 2016
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Sheih
  • Publication number: 20160048129
    Abstract: Embodiments include engagement management systems and methods for managing engagement with aerial threats. Such systems include radar modules and detect aerial threats within a threat range of a base location. The systems also track intercept vehicles and control flight paths and detonation capabilities of the intercept vehicles. The systems are capable of communication between multiple engagement management systems and coordinated control of multiple intercept vehicles.
    Type: Application
    Filed: March 15, 2013
    Publication date: February 18, 2016
    Applicant: ALLIANT TECHSYSTEMS INC.
    Inventors: James Kolanek, Behshad Baseghi, David Sharpin, Anthony Visco, Falin Shieh
  • Publication number: 20060137072
    Abstract: A neck warmer has a flat, pliable, substantially rectangular body. The rectangular body has first and second ends and top and bottom edges, and further has first and second opposite exterior surfaces, bounded by the first and second ends and top and bottom edges. First fastening means are attached to the first surface of the rectangular body proximate to the first end, and second fastening means are attached to the second surface of the rectangular body proximate to the second end. The first and second ends of the rectangular body are removably fastenable to each other at the first and second fastening means. The first and second fastening means are positioned such that when the first end is attached to the second end, the rectangular body forms a tube having inner and outer circumferential surfaces provided by the first and second exterior surfaces of the rectangular body. The tube is dimensioned to fit around a wearer's neck.
    Type: Application
    Filed: December 23, 2004
    Publication date: June 29, 2006
    Inventors: Anthony Visco, Zachary Visco