Patents by Inventor Manibabu Pippalla

Manibabu Pippalla 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 CONTROL SYSTEM AND METHOD
    Publication number: 20220063689
    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: November 9, 2021
    Publication date: March 3, 2022
    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
  • Vehicle control system and method
    Patent number: 11208129
    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: Grant
    Filed: February 14, 2019
    Date of Patent: December 28, 2021
    Assignee: Transportation IP Holdings, LLC
    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 Bellesty, 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
  • Automated distress ranking system
    Patent number: 11010887
    Abstract: A system for inspecting objects includes an imaging assembly, a detection module, an analysis module, and a memory. The imagining assembly can be a borescope that enters an unlit, closed conduit to inspect objects that are components of a turbine engine. Using an artificial light source to illuminate the conduit and one or more objects of the turbine engine, the borescope can obtain a video image of the one or more objects of the turbine engine. The video image can be used to determine a rank of distress for the one or more objects.
    Type: Grant
    Filed: September 17, 2018
    Date of Patent: May 18, 2021
    Assignee: General Electric Company
    Inventors: Aswini Kumar Jandhyala, Rajkumar Singha Konwar, Ashok Kumaraswamy, Manibabu Pippalla
  • System for vehicle subsystem control
    Patent number: 10752269
    Abstract: A system includes one or more processors configured to obtain operating parameters of a subsystem of a vehicle that is configured to travel along a route during a trip. The one or more processors are configured to generate a digital twin of the subsystem based on the operating parameters, and to receive simulated performance data generated by execution of the digital twin with a designated model of the subsystem. The one or more processors are further configured to obtain field performance data of the subsystem monitored by sensors onboard the vehicle during the trip, and to determine a performance composite index of the subsystem of the vehicle based on a variance between the simulated performance data and the field performance data. The one or more processors are also configured to control the vehicle during the trip or a subsequent trip based on the performance composite index.
    Type: Grant
    Filed: December 5, 2017
    Date of Patent: August 25, 2020
    Assignee: GENERAL ELECTRIC COMPANY
    Inventors: Suresh Govindappa, Manibabu Pippalla
  • AUTOMATED DISTRESS RANKING SYSTEM
    Publication number: 20200090315
    Abstract: A system for inspecting objects includes an imaging assembly, a detection module, an analysis module, and a memory. The imagining assembly can be a borescope that enters an unlit, closed conduit to inspect objects that are components of a turbine engine. Using an artificial light source to illuminate the conduit and one or more objects of the turbine engine, the borescope can obtain a video image of the one or more objects of the turbine engine. The video image can be used to determine a rank of distress for the one or more objects.
    Type: Application
    Filed: September 17, 2018
    Publication date: March 19, 2020
    Inventors: Aswini Kumar Jandhyala, Rajkumar Singha Konwar, Ashok Kumaraswamy, Manibabu Pippalla
  • 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
  • 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
  • SYSTEM FOR VEHICLE SUBSYSTEM CONTROL
    Publication number: 20180257683
    Abstract: A system includes one or more processors configured to obtain operating parameters of a subsystem of a vehicle that is configured to travel along a route during a trip. The one or more processors are configured to generate a digital twin of the subsystem based on the operating parameters, and to receive simulated performance data generated by execution of the digital twin with a designated model of the subsystem. The one or more processors are further configured to obtain field performance data of the subsystem monitored by sensors onboard the vehicle during the trip, and to determine a performance composite index of the subsystem of the vehicle based on a variance between the simulated performance data and the field performance data. The one or more processors are also configured to control the vehicle during the trip or a subsequent trip based on the performance composite index.
    Type: Application
    Filed: December 5, 2017
    Publication date: September 13, 2018
    Inventors: Suresh Govindappa, Manibabu Pippalla