Patents by Inventor Keller Rinaudo

Keller Rinaudo 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).

  • Patent number: 12125396
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Grant
    Filed: July 23, 2021
    Date of Patent: October 22, 2024
    Assignee: Zipline International Inc.
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler
  • Publication number: 20210350714
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Application
    Filed: July 23, 2021
    Publication date: November 11, 2021
    Applicant: ZIPLINE INTERNATIONAL INC.
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler
  • Patent number: 11113976
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Grant
    Filed: August 19, 2019
    Date of Patent: September 7, 2021
    Assignee: ZIPLINE INTERNATIONAL INC.
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler
  • Patent number: 11016510
    Abstract: An autonomous vehicle system is configured to receive vehicle commands from one or more parties and to execute those vehicle commands in a way that prevents the execution of stale commands. The autonomous vehicle system includes a finite state machine and a command counter or stored vehicle timestamp, which are used to help reject invalid or stale vehicle commands.
    Type: Grant
    Filed: July 16, 2019
    Date of Patent: May 25, 2021
    Assignee: ZIPLINE INTERNATIONAL INC.
    Inventors: Andrew Chambers, Keenan Wyrobek, Keller Rinaudo, Ryan Oksenhorn, William Hetzler
  • Publication number: 20200143693
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Application
    Filed: August 19, 2019
    Publication date: May 7, 2020
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler
  • Publication number: 20200133260
    Abstract: An autonomous vehicle system is configured to receive vehicle commands from one or more parties and to execute those vehicle commands in a way that prevents the execution of stale commands. The autonomous vehicle system includes a finite state machine and a command counter or stored vehicle timestamp, which are used to help reject invalid or stale vehicle commands.
    Type: Application
    Filed: July 16, 2019
    Publication date: April 30, 2020
    Inventors: Andrew Chambers, Keenan Wyrobek, Keller Rinaudo, Ryan Oksenhorn, William Hetzler
  • Patent number: 10395543
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Grant
    Filed: July 26, 2017
    Date of Patent: August 27, 2019
    Assignee: ZIPLINE INTERNATIONAL INC.
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler
  • Patent number: 10365645
    Abstract: An autonomous vehicle system is configured to receive vehicle commands from one or more parties and to execute those vehicle commands in a way that prevents the execution of stale commands. The autonomous vehicle system includes a finite state machine and a command counter or stored vehicle timestamp, which are used to help reject invalid or stale vehicle commands.
    Type: Grant
    Filed: March 5, 2018
    Date of Patent: July 30, 2019
    Assignee: ZIPLINE INTERNATIONAL INC.
    Inventors: Andrew Chambers, Keenan Wyrobek, Keller Rinaudo, Ryan Oksenhorn, William Hetzler
  • Patent number: 10328805
    Abstract: An electric vehicle system includes a battery management system that optimizes the performance and useful life of vehicle batteries by selecting the optimal batteries in an inventory for each electric vehicle mission based on the mission energy requirements, the energy storage capacities of batteries, and the predicted performance degradation of batteries.
    Type: Grant
    Filed: October 1, 2015
    Date of Patent: June 25, 2019
    Assignee: ZIPLINE INTERNATIONAL INC.
    Inventors: Keenan Wyrobek, James Laird Martz, III, Keller Rinaudo
  • Patent number: 9910432
    Abstract: An autonomous vehicle system is configured to receive vehicle commands from one or more parties and to execute those vehicle commands in a way that prevents the execution of stale commands. The autonomous vehicle system includes a finite state machine and a command counter or stored vehicle timestamp, which are used to help reject invalid or stale vehicle commands.
    Type: Grant
    Filed: October 7, 2016
    Date of Patent: March 6, 2018
    Assignee: ZIPLINE INTERNATIONAL INC.
    Inventors: Andrew Chambers, Keenan Wyrobek, Keller Rinaudo, Ryan Oksenhorn, William Hetzler
  • Publication number: 20170337827
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Application
    Filed: July 26, 2017
    Publication date: November 23, 2017
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler
  • Patent number: 9747808
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Grant
    Filed: May 9, 2016
    Date of Patent: August 29, 2017
    Assignee: Zipline International Inc.
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler
  • Patent number: 9489852
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Grant
    Filed: January 22, 2015
    Date of Patent: November 8, 2016
    Assignee: Zipline International Inc.
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler
  • Patent number: 9488979
    Abstract: An autonomous vehicle system is configured to receive vehicle commands from one or more parties and to execute those vehicle commands in a way that prevents the execution of stale commands. The autonomous vehicle system includes a finite state machine and a command counter or stored vehicle timestamp, which are used to help reject invalid or stale vehicle commands.
    Type: Grant
    Filed: April 14, 2015
    Date of Patent: November 8, 2016
    Assignee: Zipline International Inc.
    Inventors: Andrew Chambers, Keenan Wyrobek, Keller Rinaudo, Ryan Oksenhorn, William Hetzler
  • Publication number: 20160253908
    Abstract: An Unmanned Aerial System configured to receive a request from a user and fulfill that request using an Unmanned Aerial Vehicle. The Unmanned Aerial System selects a distribution center that is within range of the user, and deploys a suitable Unmanned Aerial Vehicle to fulfill the request from that distribution center. The Unmanned Aerial System is configured to provide real-time information about the flight route to the Unmanned Aerial Vehicle during its flight, and the Unmanned Aerial Vehicle is configured to dynamically update its mission based on information received from the Unmanned Aerial System.
    Type: Application
    Filed: May 9, 2016
    Publication date: September 1, 2016
    Inventors: Andrew Chambers, Bryan Wade, Catalin Drula, David Halley, Igor Napolskikh, Keenan Wyrobek, Keller Rinaudo, Nicholas Brake, Ryan Oksenhorn, Ryan Patterson, William Hetzler