Patents by Inventor Jared Klineman Cooper

Jared Klineman Cooper 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).

  • SYSTEMS FOR DETECTING ELECTRICAL FAULTS IN A VEHICLE
    Publication number: 20200132748
    Abstract: Systems are provided to determine a location of an electrical fault in an electrical system of a vehicle. A test apparatus can include a control unit and a plurality of scan circuits. The control unit is configured to electrically couple the plurality of scan circuits to the electrical system and trigger the plurality of scan circuits to pass electrical signals to the electrical system. Each scan circuit is configured to detect a presence of an electrical fault in the electrical system based on an electrical signal passed. Each scan circuit provides information indicative of a location of the electrical fault in the electrical system, when detected, to the control unit.
    Type: Application
    Filed: December 26, 2019
    Publication date: April 30, 2020
    Inventors: Jared Klineman Cooper, David Michael Peltz, Nicholas David Nagrodsky, Samuel William Golden, Jerod Reid Svidunovich, Keith Allen Heob, Michael Copps
  • VEHICLE COMMUNICATION SYSTEM, CONTROL SYSTEM AND METHOD
    Publication number: 20200122758
    Abstract: A vehicle control system includes a controller that communicates between a first vehicle and a second vehicle and/or a monitoring device in a vehicle system. The controller determines a communication loss and, responsive to determining the communication loss, switches to communicating via a different communication path. The controller also determines an operational restriction on movement of the vehicle system based on the communication loss that is determined, obtains a transitional plan that designates operational settings of the vehicle system at one or more different locations along a route being traveled by the vehicle system, different distances along the route being traveled by the vehicle system, and/or different times. The controller automatically changes the movement of the vehicle system according to the operational settings designated by the transitional plan to reduce the movement of the vehicle system to or below the operational restriction.
    Type: Application
    Filed: December 18, 2019
    Publication date: April 23, 2020
    Inventors: Scott William Dulmage, Brian Douglas Lawry, Wolfgang Daum, Mark Bradshaw Kraeling, Eugene Smith, Glen Paul Peltonen, Steven Andrew Kellner, Joseph Forrest Noffsinger, Robert Thomas Oliveira, Jared Klineman Cooper
  • CONTROL SYSTEM AND METHOD FOR A TRANSPORTATION NETWORK
    Publication number: 20200094861
    Abstract: A control system and method determine an energy demand associated with delivery of cargo in a trip. The energy demand represents how much electric energy is needed to move cargo vehicles that carry the cargo through the trip. Locations of energy tenders and states of charge of the energy tenders are determined. A schedule for the cargo vehicles to deliver the cargo to a delivery location within a delivery time slot is determined. This schedule is determined based on the energy demand, the locations of the energy tenders, and the states of charge of the energy tenders. The system and method direct which of the energy tenders that the cargo vehicles are to couple with, be powered by, and move with for powering the cargo along routes to the delivery location of the trip within the designated time slot.
    Type: Application
    Filed: November 26, 2019
    Publication date: March 26, 2020
    Inventors: Jared Klineman Cooper, Samuel William Golden, rRobert James Foy, David Michael Peltz, Nathan Thomas North, Milan Karunaratne
  • Vehicle communication system, control system and method
    Patent number: 10597052
    Abstract: A vehicle control system includes a controller that communicates between a first vehicle and a second vehicle and/or a monitoring device in a vehicle system. The controller determines a communication loss and, responsive to determining the communication loss, switches to communicating via a different communication path. The controller also determines an operational restriction on movement of the vehicle system based on the communication loss that is determined, obtains a transitional plan that designates operational settings of the vehicle system at one or more different locations along a route being traveled by the vehicle system, different distances along the route being traveled by the vehicle system, and/or different times. The controller automatically changes the movement of the vehicle system according to the operational settings designated by the transitional plan to reduce the movement of the vehicle system to or below the operational restriction.
    Type: Grant
    Filed: May 20, 2019
    Date of Patent: March 24, 2020
    Assignee: GE GLOBAL SOURCING LLC
    Inventors: Scott William Dulmage, Brian Douglas Lawry, Wolfgang Daum, Mark Bradshaw Kraeling, Eugene Smith, Glen Paul Peltonen, Steven Andrew Kellner, Joseph Forrest Noffsinger, Robert Thomas Oliveira, Jared Klineman Cooper
  • Vehicle control system and method
    Patent number: 10569792
    Abstract: A system and method for examining a route and/or vehicle system obtain a route parameter and/or a vehicle parameter from discrete examinations of the route and/or the vehicle system. The route parameter is indicative of a health of the route over which the vehicle system travels. The vehicle parameter is indicative of a health of the vehicle system. The discrete examinations of the route and/or the vehicle system are separated from each other by location and/or time. The route parameter and/or the vehicle parameter are examined to determine whether the route and/or the vehicle system is damaged and, responsive to determining that the route and/or the vehicle is damaged, the route and/or the vehicle system are continually monitored, such as by examination equipment onboard the vehicle system.
    Type: Grant
    Filed: October 26, 2015
    Date of Patent: February 25, 2020
    Assignee: General Electric Company
    Inventors: Sameh Fahmy, Jared Klineman Cooper, Ajith Kuttannair Kumar, Joseph Forrest Noffsinger, Wolfgang Daum, Glenn Robert Shaffer, Paul Kenneth Houpt, David Lowell McKay
  • Systems for detecting electrical faults in a vehicle
    Patent number: 10557885
    Abstract: Systems are provided to determine a location of an electrical fault in an electrical system of a vehicle. A test apparatus can include a control unit and a plurality of scan circuits. The control unit is configured to electrically couple the plurality of scan circuits to the electrical system and trigger the plurality of scan circuits to pass electrical signals to the electrical system. Each scan circuit is configured to detect a presence of an electrical fault in the electrical system based on an electrical signal passed. Each scan circuit provides information indicative of a location of the electrical fault in the electrical system, when detected, to the control unit.
    Type: Grant
    Filed: April 2, 2019
    Date of Patent: February 11, 2020
    Assignee: GE Global Sourcing LLC
    Inventors: Jared Klineman Cooper, David Michael Peltz, Nicholas David Nagrodsky, Samuel William Golden, Jerod Reid Svidunovich, Keith Allen Heob, Michael Copps
  • Control system and method for a transportation network
    Patent number: 10532755
    Abstract: A control system and method determine an energy demand associated with delivery of cargo in a trip. The energy demand represents how much electric energy is needed to move cargo vehicles that carry the cargo through the trip. Locations of energy tenders and states of charge of the energy tenders are determined. A schedule for the cargo vehicles to deliver the cargo to a delivery location within a delivery time slot is determined. This schedule is determined based on the energy demand, the locations of the energy tenders, and the states of charge of the energy tenders. The system and method direct which of the energy tenders that the cargo vehicles are to couple with, be powered by, and move with for powering the cargo along routes to the delivery location of the trip within the designated time slot.
    Type: Grant
    Filed: February 28, 2019
    Date of Patent: January 14, 2020
    Assignee: GE GLOBAL SOURCING LLC
    Inventors: Jared Klineman Cooper, Samuel William Golden, Robert James Foy, David Michael Peltz, Nathan Thomas North, Milan Karunaratne
  • Vehicle communication systems and control systems
    Patent number: 10486720
    Abstract: A vehicle control system includes a controller that communicates between a first vehicle and a second vehicle and/or a monitoring device in a vehicle system. The controller determines a communication loss and, responsive to determining the communication loss, switches to communicating via a different communication path. The controller also determines an operational restriction on movement of the vehicle system based on the communication loss that is determined, obtains a transitional plan that designates operational settings of the vehicle system at one or more different locations along a route being traveled by the vehicle system, different distances along the route being traveled by the vehicle system, and/or different times. The controller automatically changes the movement of the vehicle system according to the operational settings designated by the transitional plan to reduce the movement of the vehicle system to or below the operational restriction.
    Type: Grant
    Filed: August 15, 2016
    Date of Patent: November 26, 2019
    Assignee: GE GLOBAL SOURCING LLC
    Inventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper, Wolfgang Daum, Mark Bradshaw Kraeling, Brian Lawry, Joseph Forrest Noffsinger, Steven Andrew Kellner, Eugene Smith, Glen Paul Peltonen
  • Method and system for data processing in a vehicle group
    Patent number: 10469579
    Abstract: Methods and systems are provided for processing data generated in a vehicle group. One example embodiment comprises selectively off-boarding a data set generated at a first vehicle in the vehicle group for storage purposes, the first data set off-boarded to one or more of a second vehicle in the vehicle group and a remote storage device.
    Type: Grant
    Filed: April 7, 2014
    Date of Patent: November 5, 2019
    Assignee: General Electric Company
    Inventors: Jared Klineman Cooper, John Brand, Todd William Goodermuth, Scott Nelson, Joseph Forrest Noffsinger, Nick David Nagrodsky, Aaron Richard Mitti
  • System and method for automated establishment of a vehicle consist
    Patent number: 10464579
    Abstract: A method for controllably linking propulsion units in a vehicle consist includes transmitting a linking signal having an identity of a lead propulsion unit. A remote propulsion unit is remotely controlled by the lead unit when the identity matches a designated identity stored onboard the remote unit. A de-linking signal is transmitted from the lead unit when the lead unit is to be decoupled from the vehicle consist. The de-linking signal includes a replacement identity of a replacement propulsion unit. A replacement linking signal is transmitted from a second lead unit. The remote propulsion unit allows the second lead propulsion unit to remotely control the operations of the remote propulsion unit when replacement identity stored onboard the remote propulsion unit matches an identity that is communicated in the replacement linking signal.
    Type: Grant
    Filed: August 26, 2015
    Date of Patent: November 5, 2019
    Assignee: GE GLOBAL SOURCING LLC
    Inventors: Jared Klineman Cooper, Brian Joseph McManus, Frank Wawrzyniak, Ralph Haddock, III, Robert James Foy, James Glen Corry
  • VEHICLE COMMUNICATION SYSTEM, CONTROL SYSTEM AND METHOD
    Publication number: 20190308647
    Abstract: A vehicle control system includes a controller that communicates between a first vehicle and a second vehicle and/or a monitoring device in a vehicle system. The controller determines a communication loss and, responsive to determining the communication loss, switches to communicating via a different communication path. The controller also determines an operational restriction on movement of the vehicle system based on the communication loss that is determined, obtains a transitional plan that designates operational settings of the vehicle system at one or more different locations along a route being traveled by the vehicle system, different distances along the route being traveled by the vehicle system, and/or different times. The controller automatically changes the movement of the vehicle system according to the operational settings designated by the transitional plan to reduce the movement of the vehicle system to or below the operational restriction.
    Type: Application
    Filed: May 20, 2019
    Publication date: October 10, 2019
    Inventors: Scott William Dulmage, Brian Douglas Lawry, Wolfgang Daum, Mark Bradshaw Kraeling, Eugene Smith, Glen Paul Peltonen, Steven Andrew Kellner, Joseph Forrest Noffsinger, Robert Thomas Oliveira, Jared Klineman Cooper
  • VEHICLE COMMUNICATION SYSTEM
    Publication number: 20190276055
    Abstract: A system includes one or more processors, a communication device, and a positive train control (PTC) system. The one or more processors and communication device are onboard a lead vehicle of a vehicle system that includes the lead vehicle and a first remote vehicle. The PTC system is configured to restrict movement of the vehicle system based on a location of the vehicle system. The PTC system communicates a list of vehicle identifiers to the one or more processors. The communication device communicates a wireless linking message, which includes a vehicle identifier associated with the first remote vehicle, to the first remote vehicle. The communication device establishes a communication link between the lead vehicle and the first remote vehicle responsive to receipt of the wireless linking message at the first remote vehicle. The one or more processors remotely control movement of the first remote vehicle via the communication link.
    Type: Application
    Filed: May 28, 2019
    Publication date: September 12, 2019
    Inventors: Jared Klineman Cooper, Brian Joseph McManus, Frank Wawrzyniak, Ralph C. Haddock, III, Robert James Foy, James Glen Corry, Mark Bradshaw Kraeling, Todd William Goodermuth, Eugene Smith, Steven Andrew Kellner, Joseph Mario Nazareth, Brian William Schroeck, David Michael Peltz, Jeffrey Donald Kernwein, Daniel J. Rush, David Allen Eldredge
  • VEHICLE COMMUNICATION SYSTEM, CONTROL SYSTEM AND METHOD
    Publication number: 20190271991
    Abstract: A vehicle control system includes a controller that detects a communication loss between a first vehicle and a second vehicle and/or a monitoring device in a vehicle system. The controller operationally restricts movement of the vehicle system based on the communication loss. The controller obtains or generates a transitional plan that designates operational settings for the first vehicle and/or the second vehicle based at least in part on a location of the first vehicle and/or the second vehicle. The controller selectively changes movement of the first vehicle and/or the second vehicle via the transitional plan to reduce a speed of the first vehicle and/or the second vehicle responsive to the communication loss being detected.
    Type: Application
    Filed: May 20, 2019
    Publication date: September 5, 2019
    Inventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper
  • SYSTEM AND METHOD FOR DETERMINING VEHICLE ORIENTATION IN A VEHICLE CONSIST
    Publication number: 20190263430
    Abstract: A system and method includes determining, with a sensor assembly disposed onboard a first aerial vehicle, a direction in which a fluid flows within or through the first aerial vehicle, and determining an orientation of the first aerial vehicle relative to a second aerial vehicle based at least in part on the direction in which the fluid flows within or through the first aerial vehicle.
    Type: Application
    Filed: May 14, 2019
    Publication date: August 29, 2019
    Inventors: Eugene Smith, Ajith Kuttannair Kumar, Wolfgang Daum, Martin Paget, Daniel Rush, Sameh Fahmy, Brad Thomas Costa, Seneca Snyder, Jerry Duncan, Mark Bradshaw Kraeling, Michael Scott Miner, Shannon Joseph Clouse, Anwarul Azam, Matthew Lawrence Blair, Nidhi Naithani, Dattaraj Jagdish Rao, Anju Bind, Sreyashi Dey Chaki, Scott Daniel Nelson, Nikhil Uday Naphade, Wing Yeung Chung, Daniel Malachi Ballesty, Glenn Robert Shaffer, Jeffret James Kisak, Dale Martin DiDomenico, Suresh Govindappa, Manibabu Pippalla, Sethu Madhavan, Jared Klineman Cooper, Huan Tan, John Michael Lizzi, Charles Burton Theurer, Balajee Kannan, Romano Patrick, Brad Thomas Costa, James D. Brooks, Micahel Scott Miner, Harry Kirk Matthews, JR., Bradford Wayne Miller, Neeraja Subrahmaniyan, Brian Joseph McManus, Frank Wawrzyniak, Ralph C. Haddock, III, Robert James Foy, James Glen Corry, Steven Andrew Kellner, Joseph Mario Nazareth, Brian William Schroeck, Shawn Arthur McClintic
  • SYSTEMS FOR DETECTING ELECTRICAL FAULTS IN A VEHICLE
    Publication number: 20190227113
    Abstract: Systems are provided to determine a location of an electrical fault in an electrical system of a vehicle. A test apparatus can include a control unit and a plurality of scan circuits. The control unit is configured to electrically couple the plurality of scan circuits to the electrical system and trigger the plurality of scan circuits to pass electrical signals to the electrical system. Each scan circuit is configured to detect a presence of an electrical fault in the electrical system based on an electrical signal passed. Each scan circuit provides information indicative of a location of the electrical fault in the electrical system, when detected, to the control unit.
    Type: Application
    Filed: April 2, 2019
    Publication date: July 25, 2019
    Inventors: Jared Klineman Cooper, David Michael Peltz, Nicholas David Nagrodsky, Samuel William Golden, Jerod Reid Svidunovich, Keith Allen Heob, Michael Copps
  • Vehicle control system
    Patent number: 10338604
    Abstract: A vehicle control system includes a controller that determines a communication loss between a first vehicle and a second vehicle and/or a monitoring device in a vehicle system. The controller determines an operational restriction on movement of the vehicle system based on the communication loss that is determined, and obtains a transitional plan that designates operational settings of the vehicle system at different locations along a route being traveled by the vehicle system, different distances along the route, and/or different times. The controller also automatically changes the movement of the vehicle system according to the operational settings designated by the transitional plan to reduce the movement of the vehicle system to or below the operational restriction determined by the controller responsive to the communication loss being detected.
    Type: Grant
    Filed: August 15, 2016
    Date of Patent: July 2, 2019
    Assignee: GE GLOBAL SOURCING LLC
    Inventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper
  • CONTROL SYSTEM AND METHOD FOR A TRANSPORTATION NETWORK
    Publication number: 20190193764
    Abstract: A control system and method determine an energy demand associated with delivery of cargo in a trip. The energy demand represents how much electric energy is needed to move cargo vehicles that carry the cargo through the trip. Locations of energy tenders and states of charge of the energy tenders are determined. A schedule for the cargo vehicles to deliver the cargo to a delivery location within a delivery time slot is determined. This schedule is determined based on the energy demand, the locations of the energy tenders, and the states of charge of the energy tenders. The system and method direct which of the energy tenders that the cargo vehicles are to couple with, be powered by, and move with for powering the cargo along routes to the delivery location of the trip within the designated time slot.
    Type: Application
    Filed: February 28, 2019
    Publication date: June 27, 2019
    Inventors: Jared Klineman Cooper, Samuel William Golden, Robert James Foy, David Michael Peltz, Nathan Thomas North, Milan Karunaratne
  • Vehicle communication system
    Patent number: 10331121
    Abstract: A communication system and method for communicatively linking vehicles in a vehicle consist determine a vehicle identifier for a first remote vehicle included in a vehicle consist formed from a lead vehicle and at least the first remote vehicle. The system and method communicate a wireless linking message addressed to the vehicle identifier from the lead vehicle to the first remote vehicle, and establish a communication link between the lead vehicle and the first remote vehicle responsive to receipt of the wireless linking message at the first remote vehicle. The communication link is established such that movement of the first remote vehicle is remotely controlled from the lead vehicle via the communication link. The communication link is established without an operator entering the first remote vehicle.
    Type: Grant
    Filed: December 13, 2016
    Date of Patent: June 25, 2019
    Assignee: GE GLOBAL SOURCING LLC
    Inventors: Jared Klineman Cooper, Brian Joseph McManus, Frank Wawrzyniak, Ralph C. Haddock, III, Robert James Foy, James Glen Corry, Mark Bradshaw Kraeling, Todd William Goodermuth, Eugene Smith, Steven Andrew Kellner, Joseph Mario Nazareth, Brian William Schroeck, David Michael Peltz
  • LOCOMOTIVE CONTROL SYSTEM AND METHOD
    Publication number: 20190176862
    Abstract: System includes a controller configured to obtain one or more of a route parameter or a vehicle parameter from discrete examinations of one or more of a route or a vehicle system. The route parameter is indicative of a health of the route over which the vehicle system travels. The vehicle parameter is indicative of a health of the vehicle system. The discrete examinations of the one or more of the route or the vehicle system separated from each other by one or more of location or time. The controller is configured to examine the one or more of the route parameter or the vehicle parameter to determine whether the one or more of the route or the vehicle system is damaged. The system also includes examination equipment configured to continually monitor the one or more of the route or the vehicle system responsive to determining that the one or more of the route or the vehicle is damaged.
    Type: Application
    Filed: February 14, 2019
    Publication date: June 13, 2019
    Inventors: Ajith Kuttannair Kumar, Wolfgang Daum, Martin Paget, Daniel Rush, Brad Thomas Costa, Seneca Snyder, Jerry Duncan, Mark Bradshaw Kraeling, Michael Scott Miner, Shannon Joseph Clouse, Anwarul Azam, Matthew Lawrence Blair, Nidhi Naithani, Dattaraj Jagdish Rao, Anju Bind, Sreyashi Dey Chaki, Scott Daniel Nelson, Nikhil Uday Naphade, Wing Yeung Chung, Daniel Malachi Ballesty, Glenn Robert Shaffer, Jeffrey James Kisak, Dale Martin DiDomenico, Suresh Govindappa, Manibabu Pippalla, Sethu Madhavan, Arunachala Karthik Sridharan, Prabhu Marimuthu, Jared Klineman Cooper, Joseph Forrest Noffsinger, Paul Kenneth Houpt, David Lowell McKay
  • Systems for detecting electrical faults in a vehicle
    Patent number: 10288666
    Abstract: Systems are provided to determine a location of an electrical fault in an electrical system of a vehicle. A test apparatus can include a control unit and a plurality of scan circuits. The control unit is configured to electrically couple the plurality of scan circuits to the electrical system and trigger the plurality of scan circuits to pass electrical signals to the electrical system. Each scan circuit is configured to detect a presence of an electrical fault in the electrical system based on an electrical signal passed. Each scan circuit provides information indicative of a location of the electrical fault in the electrical system, when detected, to the control unit.
    Type: Grant
    Filed: January 11, 2016
    Date of Patent: May 14, 2019
    Assignee: GE GLOBAL SOURCING LLC
    Inventors: Jared Klineman Cooper, David Michael Peltz, Nicholas David Nagrodsky, Samuel William Golden, Jerod Reid Svidunovich, Keith Allen Heob, Michael Copps