Patents by Inventor Robert Thomas Oliveira
Robert Thomas Oliveira 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).
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Patent number: 11630464Abstract: 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: GrantFiled: August 4, 2021Date of Patent: April 18, 2023Assignee: TRANSPORTATION IP HOLDINGS, LLCInventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper
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Patent number: 11345378Abstract: 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: GrantFiled: December 18, 2019Date of Patent: May 31, 2022Assignee: Transportation IP Holdings, LLCInventors: 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
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Publication number: 20210365045Abstract: 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: ApplicationFiled: August 4, 2021Publication date: November 25, 2021Inventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper
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Patent number: 11112805Abstract: 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: GrantFiled: May 20, 2019Date of Patent: September 7, 2021Assignee: Transporation IP Holdings, LLCInventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper
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Publication number: 20200122758Abstract: 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: ApplicationFiled: December 18, 2019Publication date: April 23, 2020Inventors: 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
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Patent number: 10597052Abstract: 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: GrantFiled: May 20, 2019Date of Patent: March 24, 2020Assignee: GE GLOBAL SOURCING LLCInventors: 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
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Patent number: 10486720Abstract: 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: GrantFiled: August 15, 2016Date of Patent: November 26, 2019Assignee: GE GLOBAL SOURCING LLCInventors: 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
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Publication number: 20190308647Abstract: 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: ApplicationFiled: May 20, 2019Publication date: October 10, 2019Inventors: 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
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Publication number: 20190271991Abstract: 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: ApplicationFiled: May 20, 2019Publication date: September 5, 2019Inventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper
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Patent number: 10338604Abstract: 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: GrantFiled: August 15, 2016Date of Patent: July 2, 2019Assignee: GE GLOBAL SOURCING LLCInventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper
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Publication number: 20180043912Abstract: 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: ApplicationFiled: August 15, 2016Publication date: February 15, 2018Inventors: Scott William Dulmage, Robert Thomas Oliveira, Jared Klineman Cooper
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Publication number: 20160355198Abstract: 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: ApplicationFiled: August 15, 2016Publication date: December 8, 2016Inventors: 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
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Publication number: 20100032529Abstract: A system for tracking a rail yard inventory may be incorporated in a rail yard that has a plurality of tracks on which a plurality of railcars in a train are moved and arranged wherein each track is associated with a destination of the railcars on the track. A controller, responsive to signals from sensors, counts the number of railcars that enter and exit a track to determine if railcars have been added or removed from the train. The controller updates the railcar sequence in the train and a database having data relative to the location of each railcar in the rail yard and sequence in which railcars are linked on a track.Type: ApplicationFiled: August 7, 2008Publication date: February 11, 2010Inventors: James Kiss, Robert Thomas Oliveira