Patents by Inventor Fabien Blanc-Pâques
Fabien Blanc-Pâques 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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Publication number: 20240175694Abstract: Methods, systems and apparatus, including computer programs encoded on computer storage media for determining asset efficiency. Unmanned Aerial Vehicles (UAVs) may be used to obtain aerial images of locations, property or structures. The aerial images may be geo-rectified, and a ortho-mosaic, digital surface model, or a point cloud may be created. In the context of an operation where mobile assets are used, such as construction or earth moving equipment, location-based event information may be obtained. The location-based event information may be used to determine road segment conditions or road topology where problematic road conditions likely exist.Type: ApplicationFiled: December 4, 2023Publication date: May 30, 2024Applicant: Skydio, Inc.Inventors: Fabien Blanc-Paques, Mark Christian, Donald Curry Weigel
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Patent number: 11933613Abstract: 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: July 29, 2022Date of Patent: March 19, 2024Assignee: Skydio, Inc.Inventors: Bernard J. Michini, Brett Michael Bethke, Fabien Blanc-Paques
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Patent number: 11919531Abstract: One variation of a method for customizing motion characteristics of an autonomous vehicle for a user includes: accessing a baseline emotional state of the user following entry of the user into the autonomous vehicle at a first time proximal a start of a trip; during a first segment of the trip, autonomously navigating toward a destination location according to a first motion planning parameter, accessing a second emotional state of the user at a second time, detecting degradation of sentiment of the user based on differences between the baseline and second emotional states; and correlating degradation of sentiment of the user with a navigational characteristic of the autonomous vehicle; modifying the first motion planning parameter of the autonomous vehicle to deviate from the navigational characteristic; and, during a second segment of the trip, autonomously navigating toward the destination location according to the revised motion planning parameter.Type: GrantFiled: January 31, 2019Date of Patent: March 5, 2024Inventors: Carol Reiley, Fabien Blanc-Paques, Gahl Levy, Bradley Perry, Chih Hu, Vineet Jain, Chip J. Alexander, Alex Tomala
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Patent number: 11885759Abstract: 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: GrantFiled: December 29, 2022Date of Patent: January 30, 2024Assignee: Skydio, Inc.Inventors: Bernard J. Michini, Fabien Blanc-Paques, Edward Dale Steakley
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Publication number: 20230400853Abstract: A flight plan of an unmanned aerial vehicle (UAV) for inspecting a structure that includes an RF transmitter is received. The structure is surveyed based on the flight plan to collect RF signal data. An RF map associated with the structure is generated based on the collected RF signal data. The flight plan is adjusted based on the generated RF map to account for detected RF signal strengths. The UAV is navigated according to the adjusted flight plan.Type: ApplicationFiled: June 7, 2023Publication date: December 14, 2023Inventors: Bernard J. Michini, Fabien Blanc-Paques, Logan Kaminski
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Patent number: 11835561Abstract: Methods, systems and apparatus, for an unmanned aerial vehicle electromagnetic avoidance and utilization system. One of the methods includes obtaining a flight package indicating a flight pattern associated with inspecting a structure, the flight pattern causing the UAV to remain at a standoff distance from the structure, wherein the standoff distance is based on an electromagnetic field associated with the structure, and wherein the flight pattern is laterally constrained according to a property geofence associated with a right of way of the structure. The UAV is navigated according to the flight pattern, and the UAV captures images of the structure. For an initial portion of the flight pattern, the UAV navigates at an altitude based on the standoff distance and the property geofence towards the structure. The UAV determines a location at which to capture images of the structure, and the UAV provides the captured images to a user device.Type: GrantFiled: May 7, 2021Date of Patent: December 5, 2023Assignee: Skydio, Inc.Inventors: Fabien Blanc-Paques, Bernard J. Michini, Mark Patrick Bauer
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Patent number: 11835350Abstract: Methods, systems and apparatus, including computer programs encoded on computer storage media for determining asset efficiency. Unmanned Aerial Vehicles (UAVs) may be used to obtain aerial images of locations, property or structures. The aerial images may be geo-rectified, and a ortho-mosaic, digital surface model, or a point cloud may be created. In the context of an operation where mobile assets are used, such as construction or earth moving equipment, location-based event information may be obtained. The location-based event information may be used to determine road segment conditions or road topology where problematic road conditions likely exist.Type: GrantFiled: June 23, 2021Date of Patent: December 5, 2023Assignee: Skydio, Inc.Inventors: Fabien Blanc-Paques, Mark Christian, Donald Curry Weigel
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Patent number: 11828599Abstract: In some implementations, a UAV flight system can dynamically adjust UAV flight operations based on thermal sensor data. For example, the flight system can determine an initial flight plan for inspecting a flare stack and configure a UAV to perform an aerial inspection of the flare stack. Once airborne, the UAV can collect thermal sensor data and the flight system can automatically adjust the flight plan to avoid thermal damage to the UAV based on the thermal sensor data.Type: GrantFiled: October 21, 2021Date of Patent: November 28, 2023Assignee: Skydio, Inc.Inventors: Bernard J. Michini, Fabien Blanc-Paques
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Patent number: 11709491Abstract: In some implementations, a UAV flight system can dynamically adjust UAV flight operations based on radio frequency (RF) signal data. For example, the flight system can determine an initial flight plan for inspecting a RF transmitter and configure a UAV to perform an aerial inspection of the RF transmitter. Once airborne, the UAV can collect RF signal data and the flight system can automatically adjust the flight plan to avoid RF signal interference and/or damage to the UAV based on the collected RF signal data. In some implementations, the UAV can collect RF signal data and generate a three-dimensional received signal strength map that describes the received signal strength at various locations within a volumetric area around the RF transmitter. In some implementations, the UAV can collect RF signal data and determine whether a RF signal transmitter is properly aligned.Type: GrantFiled: September 17, 2021Date of Patent: July 25, 2023Assignee: Skydio, Inc.Inventors: Bernard J. Michini, Fabien Blanc-Paques, Logan Kaminski
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Publication number: 20230133257Abstract: 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: December 29, 2022Publication date: May 4, 2023Inventors: Bernard J. Michini, Fabien Blanc-Paques, Edward Dale Steakley
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Patent number: 11567019Abstract: 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: GrantFiled: September 23, 2021Date of Patent: January 31, 2023Assignee: Skydio, Inc.Inventors: Bernard J. Michini, Fabien Blanc-Paques, Edward Dale Steakley
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Publication number: 20220381561Abstract: 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: ApplicationFiled: July 29, 2022Publication date: December 1, 2022Inventors: Bernard J. Michini, Brett Michael Bethke, Fabien Blanc-Paques
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Patent number: 11421990Abstract: 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: December 1, 2017Date of Patent: August 23, 2022Assignee: Skydio, Inc.Inventors: Bernard J. Michini, Brett Michael Bethke, Fabien Blanc-Paques
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Publication number: 20220205938Abstract: 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: September 23, 2021Publication date: June 30, 2022Inventors: Bernard J. Michini, Fabien Blanc-Paques, Edward Dale Steakley
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Publication number: 20220146263Abstract: In some implementations, a UAV flight system can dynamically adjust UAV flight operations based on thermal sensor data. For example, the flight system can determine an initial flight plan for inspecting a flare stack and configure a UAV to perform an aerial inspection of the flare stack. Once airborne, the UAV can collect thermal sensor data and the flight system can automatically adjust the flight plan to avoid thermal damage to the UAV based on the thermal sensor data.Type: ApplicationFiled: October 21, 2021Publication date: May 12, 2022Inventors: Bernard J. Michini, Fabien Blanc-Paques
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Publication number: 20220075375Abstract: In some implementations, a UAV flight system can dynamically adjust UAV flight operations based on radio frequency (RF) signal data. For example, the flight system can determine an initial flight plan for inspecting a RF transmitter and configure a UAV to perform an aerial inspection of the RF transmitter. Once airborne, the UAV can collect RF signal data and the flight system can automatically adjust the flight plan to avoid RF signal interference and/or damage to the UAV based on the collected RF signal data. In some implementations, the UAV can collect RF signal data and generate a three-dimensional received signal strength map that describes the received signal strength at various locations within a volumetric area around the RF transmitter. In some implementations, the UAV can collect RF signal data and determine whether a RF signal transmitter is properly aligned.Type: ApplicationFiled: September 17, 2021Publication date: March 10, 2022Inventors: Bernard J. Michini, Fabien Blanc-Paques, Logan Cummings
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Publication number: 20220003213Abstract: Methods, systems and apparatus, including computer programs encoded on computer storage media for an unmanned aerial vehicle (UAV) wind turbine inspection system. One of the methods includes obtaining first sensor information by an unmanned aerial vehicle (UAV), the first sensor information describing physical aspects of a wind turbine, including one or more blades of the wind turbine. An orientation of the blades of the wind turbine are determined based on the obtained first sensor information. A flight pattern for the UAV to inspect the blades of the wind turbine is determined, the flight pattern being based on the determined orientation of the blades. Each of the blades of the wind turbine is inspected by the UAV according to the determined flight pattern, the inspection including obtaining second sensor information describing the blades of the wind turbine.Type: ApplicationFiled: September 15, 2021Publication date: January 6, 2022Inventors: Bernard J. Michini, Fabien Blanc-Paques
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Publication number: 20210396530Abstract: Methods, systems and apparatus, including computer programs encoded on computer storage media for determining asset efficiency. Unmanned Aerial Vehicles (UAVs) may be used to obtain aerial images of locations, property or structures. The aerial images may be geo-rectified, and a ortho-mosaic, digital surface model, or a point cloud may be created. In the context of an operation where mobile assets are used, such as construction or earth moving equipment, location-based event information may be obtained. The location-based event information may be used to determine road segment conditions or road topology where problematic road conditions likely exist.Type: ApplicationFiled: June 23, 2021Publication date: December 23, 2021Inventors: Fabien Blanc-Paques, Mark Christian, Donald Curry Weigel
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Patent number: 11181375Abstract: In some implementations, a UAV flight system can dynamically adjust UAV flight operations based on thermal sensor data. For example, the flight system can determine an initial flight plan for inspecting a flare stack and configure a UAV to perform an aerial inspection of the flare stack. Once airborne, the UAV can collect thermal sensor data and the flight system can automatically adjust the flight plan to avoid thermal damage to the UAV based on the thermal sensor data.Type: GrantFiled: June 29, 2017Date of Patent: November 23, 2021Assignee: Skydio, Inc.Inventors: Bernard J. Michini, Fabien Blanc-Pâques
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Publication number: 20210341527Abstract: Methods, systems and apparatus, for an unmanned aerial vehicle electromagnetic avoidance and utilization system. One of the methods includes obtaining a flight package indicating a flight pattern associated with inspecting a structure, the flight pattern causing the UAV to remain at a standoff distance from the structure, wherein the standoff distance is based on an electromagnetic field associated with the structure, and wherein the flight pattern is laterally constrained according to a property geofence associated with a right of way of the structure. The UAV is navigated according to the flight pattern, and the UAV captures images of the structure. For an initial portion of the flight pattern, the UAV navigates at an altitude based on the standoff distance and the property geofence towards the structure. The UAV determines a location at which to capture images of the structure, and the UAV provides the captured images to a user device.Type: ApplicationFiled: May 7, 2021Publication date: November 4, 2021Inventors: Fabien Blanc-Paques, Bernard J. Michini, Mark Patrick Bauer