Patents Assigned to UNMANNED INNOVATION, INC.
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Patent number: 11733698Abstract: An unmanned vehicle including a vehicle body, propulsion system, maneuvering system, vehicle control system, rack, sensor, and a power supply. The vehicle control may be used to control the unmanned vehicle in combination with the propulsion and the maneuvering system. The rack may include a retractable mount that may move between a down position and an up position. The sensor system may include a plurality of transient object detection sensors. The plurality of transient object detection sensors may include a sensor adapted to detect an item of interest and may provide an item of interest signal to the vehicle control system. The vehicle control system may identify an item of interest classification and may provide a classification signal. The classification signal may be determined by the item of interest classification and may be utilized to avoid detection of the unmanned vehicle by the item of interest.Type: GrantFiled: October 31, 2022Date of Patent: August 22, 2023Assignee: UNMANNED INNOVATIONS, INC.Inventors: Bruce Hanson, Thomas Hanson
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Patent number: 11507094Abstract: An unmanned vehicle including a vehicle body, a propulsion system, a maneuvering system, a vehicle control system, a buoyancy control system, a sensor system, and at least one power supply is disclosed. The propulsion system, maneuvering system, vehicle control system, buoyancy control system, sensor system, and power supply are carried by the vehicle body. The sensor system includes a sensor adapted to detect an item of interest and provide an item of interest signal to the vehicle control system. The vehicle control system is adapted to receive the item of interest signal, identify an item of interest classification and provide a classification signal. The classification signal is determined by the item of interest classification and is utilized by the propulsion system, maneuvering system, vehicle control system, or buoyancy control system to avoid physical, electrical, acoustic, or thermal detection of the unmanned vehicle by the item of interest.Type: GrantFiled: February 1, 2021Date of Patent: November 22, 2022Assignee: UNMANNED INNOVATIONS, INCInventors: Bruce Becker Hanson, Thomas Edward Hanson
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Publication number: 20210318682Abstract: An unmanned vehicle including a vehicle body, a propulsion system, a maneuvering system, a vehicle control system, a buoyancy control system, a sensor system, and at least one power supply is disclosed. The propulsion system, maneuvering system, vehicle control system, buoyancy control system, sensor system, and power supply are carried by the vehicle body. The sensor system includes a sensor adapted to detect an item of interest and provide an item of interest signal to the vehicle control system. The vehicle control system is adapted to receive the item of interest signal, identify an item of interest classification and provide a classification signal. The classification signal is determined by the item of interest classification and is utilized by the propulsion system, maneuvering system, vehicle control system, or buoyancy control system to avoid physical, electrical, acoustic, or thermal detection of the unmanned vehicle by the item of interest.Type: ApplicationFiled: February 1, 2021Publication date: October 14, 2021Applicant: Unmanned Innovations, Inc.Inventors: Bruce Becker Hanson, Thomas Edward Hanson
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Patent number: 10908611Abstract: The systems and associated methods are for autonomously launching and recovering payload objects such as vessels, equipment and people by partially submerging a multi-mode unmanned vehicle in a controlled manner. Mechanical, power, signal and logical system components operate in a coordinated manner to repeatedly and reliably perform unmanned launch and recovery of payloads in a variety of conditions and sea states from a catamaran style hull with multi-mode, high-performance characteristics.Type: GrantFiled: June 24, 2019Date of Patent: February 2, 2021Assignee: UNMANNED INNOVATIONS, INC.Inventors: Bruce Becker Hanson, Thomas Edward Hanson
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Publication number: 20190310639Abstract: The systems and associated methods are for autonomously launching and recovering payload objects such as vessels, equipment and people by partially submerging a multi-mode unmanned vehicle in a controlled manner. Mechanical, power, signal and logical system components operate in a coordinated manner to repeatedly and reliably perform unmanned launch and recovery of payloads in a variety of conditions and sea states from a catamaran style hull with multi-mode, high-performance characteristics.Type: ApplicationFiled: June 24, 2019Publication date: October 10, 2019Applicant: Unmanned Innovations, Inc.Inventors: Bruce Becker Hanson, Thomas Edward Hanson
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Patent number: 10331131Abstract: Systems and associated methods for rapid integration and control of payloads carried by a multi-mode unmanned vehicle configured to accommodate a variety of payloads of varying size, shape, and interface and control characteristics. Mechanical, power, signal, and logical interfaces to a variety of payloads operate to enable environmental protection, efficient placement and connection to the vehicle, and control of those payloads in multiple environmental modes as well as operational modes (including in air, on the surface of water surface, and underwater).Type: GrantFiled: May 31, 2017Date of Patent: June 25, 2019Assignee: Unmanned Innovations, Inc.Inventors: Bruce Becker Hanson, Thomas Edward Hanson
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Patent number: 10083616Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for an unmanned aerial system inspection system. One of the methods is performed by a UAV and includes receiving, by the UAV, flight information describing a job to perform an inspection of a rooftop. A particular altitude is ascended to, and an inspection of the rooftop is performed including obtaining sensor information describing the rooftop. Location information identifying a damaged area of the rooftop is received. The damaged area of the rooftop is traveled to. An inspection of the damaged area of the rooftop is performed including obtaining detailed sensor information describing the damaged area. A safe landing location is traveled to.Type: GrantFiled: March 11, 2016Date of Patent: September 25, 2018Assignee: UNMANNED INNOVATION, INC.Inventors: Mark Patrick Bauer, Brian Richman, Alan Jay Poole, Bernard J. Michini, Jonathan Anders Lovegren, Brett Michael Bethke, Hui Li
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Patent number: 10061470Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for an unmanned aerial system inspection system. One of the methods is performed by a UAV and includes receiving, by the UAV, flight information describing a job to perform an inspection of a rooftop. A particular altitude is ascended to, and an inspection of the rooftop is performed including obtaining sensor information describing the rooftop. Location information identifying a damaged area of the rooftop is received. The damaged area of the rooftop is traveled to. An inspection of the damaged area of the rooftop is performed including obtaining detailed sensor information describing the damaged area. A safe landing location is traveled to.Type: GrantFiled: March 27, 2017Date of Patent: August 28, 2018Assignee: Unmanned Innovation, Inc.Inventors: Brian Richman, Mark Patrick Bauer, Bernard J. Michini, Alan Jay Poole
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Patent number: 10025307Abstract: A modular vehicle management system is described, comprising a controller module configured to control different types of carrier modules. The controller module includes a computer system and optionally one or more sensors. The computer system is configured to perform operations comprising detecting whether a carrier module is connected to the controller module. If the carrier module is connected to the controller module, the carrier module is authenticated. If the authentication fails, operation of the vehicle is inhibited. The control module is configured to determine carrier module capabilities including information regarding a navigation processing device, and/or a radio modem. The controller adapts to the capabilities of the controller module. Using information from the sensors and the navigation processing device, the vehicle management system navigates the vehicle.Type: GrantFiled: January 7, 2016Date of Patent: July 17, 2018Assignee: Unmanned Innovation, Inc.Inventors: Jonathan B. Downey, Bernard J. Michini
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Patent number: 9915946Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for an unmanned aerial system inspection system. One of the methods is performed by a UAV and includes receiving, by the UAV, flight information describing a job to perform an inspection of a rooftop. A particular altitude is ascended to, and an inspection of the rooftop is performed including obtaining sensor information describing the rooftop. Location information identifying a damaged area of the rooftop is received. The damaged area of the rooftop is traveled to. An inspection of the damaged area of the rooftop is performed including obtaining detailed sensor information describing the damaged area. A safe landing location is traveled to.Type: GrantFiled: March 17, 2017Date of Patent: March 13, 2018Assignee: UNMANNED INNOVATION, INC.Inventors: Alan Jay Poole, Mark Patrick Bauer, Volkan Gurel, Bernard J. Michini, Justin Eugene Kuehn
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Patent number: 9881213Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for an unmanned aerial system inspection system. One of the methods is performed by a UAV and includes receiving, by the UAV, flight information describing a job to perform an inspection of a rooftop. A particular altitude is ascended to, and an inspection of the rooftop is performed including obtaining sensor information describing the rooftop. Location information identifying a damaged area of the rooftop is received. The damaged area of the rooftop is traveled to. An inspection of the damaged area of the rooftop is performed including obtaining detailed sensor information describing the damaged area. A safe landing location is traveled to.Type: GrantFiled: March 17, 2017Date of Patent: January 30, 2018Assignee: UNMANNED INNOVATION, INC.Inventors: Bernard J. Michini, Hui Li, Brett Michael Bethke
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Publication number: 20180025649Abstract: Disclosed in this specification are methods, systems and apparatus, including computer programs encoded on non-transitory computer storage media for unmanned aerial vehicle (UAV) flight operation and privacy controls. Based on geofence types, and UAV distance from a geofence, sensors and other devices connected to a UAV are conditionally operational. Image data collected during a UAV flight may be obfuscated by the UAV while in flight, or via a post-flight process using log data generated by the UAV.Type: ApplicationFiled: March 31, 2016Publication date: January 25, 2018Applicant: Unmanned Innovation Inc.Inventors: Dana Livonia Contreras, Lucas Palage Doyle, Justin Eugene Kuehn, Volkan Gurel, Eric David Johnson, Edward Dale Steakley
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Publication number: 20180025473Abstract: Disclosed in this specification are methods, systems and apparatus, including computer programs encoded on non-transitory computer storage media for unmanned aerial vehicle (UAV) flight operation and privacy controls. Based on geofence types, and UAV distance from a geofence, sensors and other devices connected to a UAV are conditionally operational. Image data collected during a UAV flight may be obfuscated by the UAV while in flight, or via a post-flight process using log data generated by the UAV.Type: ApplicationFiled: March 31, 2016Publication date: January 25, 2018Applicant: Unmanned Innovation Inc.Inventors: Dana Livonia Contreras, Lucas Palage Doyle, Justin Eugene Kuehn, Volkan Gurel, Eric David Johnson, Edward Dale Steakley
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Publication number: 20180003656Abstract: Methods, systems, and program products of inspecting solar panels using unmanned aerial vehicles (UAVs) are disclosed. A UAV can obtain a position of the Sun in a reference frame, a location of a solar panel in the reference frame, and an orientation of the solar panel in the reference frame. The UAV can determine a viewing position of the UAV in the reference frame based on at least one of the position of the Sun, the location of the solar panel, and the orientation of the solar panel. The UAV can maneuver to the viewing position and point a thermal sensor onboard the UAV at the solar panel. The UAV can capture, by the thermal sensor, a thermal image of at least a portion of the solar panel. A server onboard the UAV or connected to the UAV can detect panel failures based on the thermal image.Type: ApplicationFiled: June 30, 2017Publication date: January 4, 2018Applicant: Unmanned Innovation Inc.Inventors: Bernard J. Michini, Fabien Blanc-Paques, Edward Dale Steakley
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Patent number: 9835453Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for ground control point assignment and determination. One of the methods includes receiving information describing a flight plan for the UAV to implement, the flight plan identifying one or more waypoints associated with geographic locations assigned as ground control points. A first waypoint identified in the flight plan is traveled to, and an action to designate a surface at the associated geographic location is designated as a ground control point. Location information associated with the designated surface is stored. The stored location information is provided to an outside system for storage.Type: GrantFiled: October 27, 2016Date of Patent: December 5, 2017Assignee: UNMANNED INNOVATION, INC.Inventors: Bernard J. Michini, Brett Michael Bethke, Fabien Blanc-Paques
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Publication number: 20170300054Abstract: Systems and associated methods for rapid integration and control of payloads carded by a multi-mode, unmanned vehicle configured to accommodate a variety of payloads of varying size, shape, and interface and control characteristics. Mechanical, power, signal, and logical interfaces to a variety of payloads operate to enable environmental protection, efficient placement and connection to the vehicle, and control of those payloads in multiple environmental modes as well as operational modes (including in air, on the surface of water surface, and underwater).Type: ApplicationFiled: May 31, 2017Publication date: October 19, 2017Applicant: Unmanned Innovations, Inc.Inventors: Bruce Becker Hanson, Thomas Edward Hanson
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Patent number: 9740200Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for an unmanned aerial system inspection system. One of the methods is performed by a UAV and includes obtaining, from a user device, flight operation information describing an inspection of a vertical structure to be performed, the flight operation information including locations of one or more safe locations for vertical inspection. A location of the UAV is determined to correspond to a first safe location for vertical inspection. A first inspection of the structure is performed is performed at the first safe location, the first inspection including activating cameras. A second safe location is traveled to, and a second inspection of the structure is performed. Information associated with the inspection is provided to the user device.Type: GrantFiled: September 16, 2016Date of Patent: August 22, 2017Assignee: UNMANNED INNOVATION, INC.Inventors: Brett Michael Bethke, Hui Li, Bernard J. Michini
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Publication number: 20170229022Abstract: Methods, systems and apparatus, including computer programs encoded on computer storage media for unmanned aerial vehicle visual line of sight flight operations. A UAV computer system may be configured to ensure the UAV is operating in visual line of sight of one or more ground operators. The UAV may confirm that it has a visual line of sight with the one or more user devices, such as a ground control station, or the UAV may ensure that the UAV does not fly behind or below a structure such that the ground operator would not be able to visually spot the UAV. The UAV computer system may be configured in such a way that UAV operation will maintain the UAV in visual line of sight of a base location.Type: ApplicationFiled: March 3, 2017Publication date: August 10, 2017Applicant: Unmanned Innovation Inc.Inventors: Volkan Gurel, Bernard J. Michini, Edward Dale Steakley
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Patent number: 9669904Abstract: Systems and associated methods for planning and control of a fleet of unmanned vehicles in missions that are coordinated temporally and spatially by geo-location, direction, vehicle orientation, altitude above sea level, and depth below sea level. The unmanned vehicles' transit routes may be fully autonomous, semi-autonomous, or under direct operator control using off board control systems. Means are provided for intervention and transit changes during mission execution. Means are provided to collect, centralize and analyze mission data collected on the set of participating unmanned vehicles.Type: GrantFiled: June 30, 2015Date of Patent: June 6, 2017Assignee: Unmanned Innovations, Inc.Inventors: Bruce Becker Hanson, Thomas Edward Hanson
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Patent number: D800843Type: GrantFiled: September 1, 2016Date of Patent: October 24, 2017Assignee: Unmanned Innovation Inc.Inventors: Thomas Skyler Sartorius, Calder Richmond Hughes, Julian Rene Alvarez, Sean David-Andrew Belardo