Patents by Inventor Frank Wawrzyniak

Frank Wawrzyniak 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).

  • VEHICLE COMMUNICATION SYSTEM
    Publication number: 20220266876
    Abstract: A system and method includes a first control system having one or more processors onboard a lead vehicle of a vehicle system that includes the lead vehicle and a remote vehicle. The second control system automatically restricts movement of the vehicle system based on a location of the vehicle system. The processors detect a signal instance of an operator actuating an input device, and communicate a vehicle information request message to the second control system. The second control system communicates a list of vehicle identifiers, that includes a vehicle identifier associated with the remote vehicle, to the processors. The processors communicate a wireless linking message, including a request to establish a communication link, to the remote vehicle based on the vehicle identifier associated with the remote vehicle.
    Type: Application
    Filed: May 13, 2022
    Publication date: August 25, 2022
    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
    Patent number: 11332167
    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: Grant
    Filed: May 28, 2019
    Date of Patent: May 17, 2022
    Assignee: TRANSPORTATION IP HOLDINGS, 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, Jeffrey Donald Kernwein, Daniel J. Rush, David Allen Eldredge
  • 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
    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
  • 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
  • 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
  • VEHICLE COMMUNICATION SYSTEM
    Publication number: 20170090473
    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: Application
    Filed: December 13, 2016
    Publication date: March 30, 2017
    Inventors: Jared Klineman Cooper, Brian Joseph McManus, Frank Wawrzyniak, Ralph C. Haddock, III, Robert James Foy, James Glenn Corry, Mark Bradshaw Kraeling, Todd William Goodermuth, Eugene Smith, Steven Andrew Kellner, Joseph Mario Nazareth, Brian William Schroeck, David Michael Peltz
  • System and method for controlling velocity of a vehicle
    Patent number: 9493143
    Abstract: A control system includes an onboard controller, a location determination system, and a speed sensor. The controller identifies a designated area along a route that includes a downhill section, an airflow restricted area, a banked section, a section to be cleaned, an adverse environmental area, an adverse vehicular condition area, and/or a section where travel is restricted. The designated area is associated with an operating rule that requires the vehicle to travel at least as fast as a lower speed limit. The location determination system monitors actual locations of the vehicle as the vehicle travels along the route. The speed sensor obtains speed data representative of an actual velocity of the vehicle. The controller restricts control of the vehicle such that the actual velocity of the vehicle is at least as fast as the lower speed limit of the designated area when the vehicle is in the designated area.
    Type: Grant
    Filed: June 1, 2012
    Date of Patent: November 15, 2016
    Assignee: General Electric Company
    Inventors: Jared Klineman Cooper, David Eldredge, David Peltz, John Brand, Frank Wawrzyniak, Robert Bremmer, Michael Barrett, Wolfgang Daum
  • VEHICLE CONTROL SYSTEM AND METHOD
    Publication number: 20160090112
    Abstract: A system and method for controlling a vehicle system control movement of the vehicle system along a route. The vehicle system includes one or more propulsion-generating vehicles. A propulsion-generating helper vehicle is temporarily added to the vehicle system such that the helper vehicle increases one or more of an amount of tractive force or an amount of braking effort generated by the vehicle system. The helper vehicle may be added during movement of the vehicle system. The system and method may add the helper vehicle without de-linking the propulsion-generating vehicles in the vehicle system from each other. The system and method optionally may control movement of the propulsion-generating vehicles and the helper vehicle according to a trip plan that designates operational settings as a function of at least one of time or distance along the route.
    Type: Application
    Filed: September 29, 2014
    Publication date: March 31, 2016
    Inventors: Eugene Smith, Steven Andrew Kellner, Robert Carmen Palanti, Jay Milton Evans, Kristopher Ryan Smith, Frank Wawrzyniak, Thomas Cyr, Thomas Woodbridge, David Allen Eldredge, William Cherrick Schoonmaker, Jared Klineman Cooper, David Kirchner
  • SYSTEM AND METHOD FOR DECOUPLING A VEHICLE SYSTEM
    Publication number: 20160009302
    Abstract: A system and method for separating a vehicle system into separate vehicle segments, separately moving the vehicle segments, and re-connecting the vehicle segments without initiation of a brake penalty application are provided. The system and method communicate a suspend command signal between vehicle segments to suspend operations of vehicles in a cooperative mode. The vehicles in the vehicle system are decoupled into plural separate vehicle segments. The system and method also move one or more of the vehicle segments separately from one or more other vehicle segments. The vehicle segments are reconnected to form the vehicle system, and the system and method communicate a reconnect command signal between the vehicle segments to resume operations in the cooperative mode, without incurring a penalty brake application of the vehicle system.
    Type: Application
    Filed: July 9, 2014
    Publication date: January 14, 2016
    Inventors: Robert Francis Bryant, Jared Klineman Cooper, Frank Wawrzyniak, Tara Lauren Wawrzyniak
  • System and method for decoupling a vehicle system
    Patent number: 9227639
    Abstract: A system and method for separating a vehicle system into separate vehicle segments, separately moving the vehicle segments, and re-connecting the vehicle segments without initiation of a brake penalty application are provided. The system and method communicate a suspend command signal between vehicle segments to suspend operations of vehicles in a cooperative mode. The vehicles in the vehicle system are decoupled into plural separate vehicle segments. The system and method also move one or more of the vehicle segments separately from one or more other vehicle segments. The vehicle segments are reconnected to form the vehicle system, and the system and method communicate a reconnect command signal between the vehicle segments to resume operations in the cooperative mode, without incurring a penalty brake application of the vehicle system.
    Type: Grant
    Filed: July 9, 2014
    Date of Patent: January 5, 2016
    Assignee: General Electric Company
    Inventors: Robert Francis Bryant, Jared Klineman Cooper, Frank Wawrzyniak, Tara Lauren Wawrzyniak
  • SYSTEM AND METHOD FOR AUTOMATED ESTABLISHMENT OF A VEHICLE CONSIST
    Publication number: 20150360700
    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: Application
    Filed: August 26, 2015
    Publication date: December 17, 2015
    Inventors: Jared Klineman Cooper, Brian Joseph McManus, Frank Wawrzyniak, Ralph Haddock, III, Robert James Foy, James Glen Corry
  • System and method for automated establishment of a vehicle consist
    Patent number: 9180892
    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: May 12, 2014
    Date of Patent: November 10, 2015
    Assignee: General Electric Company
    Inventors: Jared Klineman Cooper, Brian Joseph McManus, Frank Wawrzyniak, Ralph Haddock, III, Robert James Foy, James Glen Corry
  • System and method for determining a slack condition of a vehicle system
    Patent number: 8996293
    Abstract: A method for determining a slack condition of a vehicle system includes determining when each of first and second vehicles reaches a designated location along a route. The method also includes communicating a response message from the second vehicle to the first vehicle responsive to the second vehicle reaching the designated location, calculating a separation distance between the first vehicle and the second vehicle based on a time delay between a first time when the first vehicle reached the designated location and a second time when the second vehicle reached the designated location, and determining a slack condition of the vehicle system based on the separation distance. The slack condition is representative of an amount of slack in the vehicle system between the first and second vehicles.
    Type: Grant
    Filed: May 17, 2013
    Date of Patent: March 31, 2015
    Assignee: General Electric Company
    Inventors: Jared Klineman Cooper, Robert James Foy, Eugene Smith, John Welsh McElroy, Frank Wawrzyniak
  • SYSTEM AND METHOD FOR DETERMINING A SLACK CONDITION OF A VEHICLE SYSTEM
    Publication number: 20140343835
    Abstract: A method for determining a slack condition of a vehicle system includes determining when each of first and second vehicles reaches a designated location along a route. The method also includes communicating a response message from the second vehicle to the first vehicle responsive to the second vehicle reaching the designated location, calculating a separation distance between the first vehicle and the second vehicle based on a time delay between a first time when the first vehicle reached the designated location and a second time when the second vehicle reached the designated location, and determining a slack condition of the vehicle system based on the separation distance. The slack condition is representative of an amount of slack in the vehicle system between the first and second vehicles.
    Type: Application
    Filed: May 17, 2013
    Publication date: November 20, 2014
    Applicant: General Electric Company
    Inventors: Jared Klineman COOPER, Robert James FOY, Eugene SMITH, John Welsh MCELROY, Frank WAWRZYNIAK
  • SYSTEM AND METHOD FOR AUTOMATED ESTABLISHMENT OF A VEHICLE CONSIST
    Publication number: 20140249699
    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: Application
    Filed: May 12, 2014
    Publication date: September 4, 2014
    Applicant: GENERAL ELECTRIC COMPANY
    Inventors: Jared Klineman Cooper, Brian Joseph McManus, Frank Wawrzyniak, Ralph Haddock, III, Robert James Foy, James Glen Corry
  • System and method for automated establishment of a vehicle consist
    Patent number: 8725323
    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 23, 2012
    Date of Patent: May 13, 2014
    Assignee: General Electric Company
    Inventors: Jared Klineman Cooper, Brian Joseph McManus, Frank Wawrzyniak, Ralph C. Haddock, III, Robert James Foy, James Glen Corry
  • System, method and device for conveying information from a wayside device
    Patent number: 8628047
    Abstract: A system, method and device for communicating information from a wayside device to a vehicle are provided. In one embodiment, the device comprises.
    Type: Grant
    Filed: July 14, 2011
    Date of Patent: January 14, 2014
    Assignee: General Electric Company
    Inventors: Jared K. Cooper, David Eldredge, William Schoonmaker, John Brand, Frank Wawrzyniak
  • SYSTEM AND METHOD FOR CONTROLLING VELOCITY OF A VEHICLE
    Publication number: 20130325258
    Abstract: A control system includes an onboard controller, a location determination system, and a speed sensor. The controller identifies a designated area along a route that includes a downhill section, an airflow restricted area, a banked section, a section to be cleaned, an adverse environmental area, an adverse vehicular condition area, and/or a section where travel is restricted. The designated area is associated with an operating rule that requires the vehicle to travel at least as fast as a lower speed limit. The location determination system monitors actual locations of the vehicle as the vehicle travels along the route. The speed sensor obtains speed data representative of an actual velocity of the vehicle. The controller restricts control of the vehicle such that the actual velocity of the vehicle is at least as fast as the lower speed limit of the designated area when the vehicle is in the designated area.
    Type: Application
    Filed: June 1, 2012
    Publication date: December 5, 2013
    Inventors: Jared Klineman Cooper, David Eldredge, David Peltz, John Brand, Frank Wawrzyniak, Robert Bremmer, Michael Barrett, Wolfgang Daum
  • SYSTEM, METHOD AND DEVICE FOR CONVEYING INFORMATION FROM A WAYSIDE DEVICE
    Publication number: 20130015298
    Abstract: A system, method and device for communicating information from a wayside device to a vehicle are provided. In one embodiment, the device comprises.
    Type: Application
    Filed: July 14, 2011
    Publication date: January 17, 2013
    Inventors: Jared K. COOPER, David Eldredge, William Schoonmaker, John Brand, Frank Wawrzyniak