UNMANNED AERIAL VEHICLE ROOFTOP INSPECTION SYSTEM
First Claim
1. A computerized method performed by an unmanned aerial vehicle (UAV) comprising one or more processors, the method comprising:
- receiving, by the UAV, a flight plan comprising a plurality of inspection locations for a structure, wherein the plurality of inspection locations each comprise a waypoint having a geospatial reference;
navigating the UAV to ascend to a clearance altitude above a height of the structure;
conducting an inspection for an inspection location of the plurality of inspection locations according to the received flight plan, the inspection comprising;
navigating the UAV to a position above a surface of the structure associated with the inspection location, and descending, from the position, to within a particular distance from the surface of the structure based on monitoring an onboard distance measuring device,the onboard distance measuring device measuring distances to locations on the surface, andthe particular distance above the surface being determined to obtain at least a particular level of detail in sensor information; and
obtaining, while the UAV is within the particular distance from the surface of the structure, information from one or more sensors describing the structure;
navigating the UAV to another inspection location of the plurality of inspection locations; and
navigating the UAV to a landing location.
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0 Petitions
Accused Products
Abstract
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.
83 Citations
31 Claims
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1. A computerized method performed by an unmanned aerial vehicle (UAV) comprising one or more processors, the method comprising:
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receiving, by the UAV, a flight plan comprising a plurality of inspection locations for a structure, wherein the plurality of inspection locations each comprise a waypoint having a geospatial reference; navigating the UAV to ascend to a clearance altitude above a height of the structure; conducting an inspection for an inspection location of the plurality of inspection locations according to the received flight plan, the inspection comprising; navigating the UAV to a position above a surface of the structure associated with the inspection location, and descending, from the position, to within a particular distance from the surface of the structure based on monitoring an onboard distance measuring device, the onboard distance measuring device measuring distances to locations on the surface, and the particular distance above the surface being determined to obtain at least a particular level of detail in sensor information; and obtaining, while the UAV is within the particular distance from the surface of the structure, information from one or more sensors describing the structure; navigating the UAV to another inspection location of the plurality of inspection locations; and navigating the UAV to a landing location. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 31)
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11. A computer storage medium comprising instructions that when executed by one or more processors included in a Unmanned Aerial Vehicle (UAV), cause the UAV to perform operations comprising:
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receiving, by the UAV, a flight plan comprising a plurality of inspection locations for a structure, wherein the plurality of inspection locations each comprise a waypoint having a geospatial reference; navigating the UAV to ascend to a clearance altitude above a height of the structure; conducting an inspection for an inspection location of the plurality of inspection locations, the inspection comprising; navigating the UAV to a position above a surface of the structure associated with the inspection location, and descending, from the position, to within a particular distance from the surface of the structure based on monitoring an onboard distance measuring device, the onboard distance measuring device measuring distances to locations on the surface, and the particular distance above the surface being determined to obtain at least a particular level of detail in sensor information; and obtaining, while the UAV is within the particular distance from the surface of the structure, information from one or more sensors describing the structure; navigating the UAV to another inspection location of the plurality of inspection locations; and navigating the UAV to a landing location. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. An unmanned aerial vehicle (UAV) system comprising one or more processors, and a computer storage media storing instructions, that when executed by the one or more processors, cause the one or more processors to perform operations comprising:
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receiving, by the UAV, a flight plan comprising a plurality of inspection locations for a structure, wherein the plurality of inspection locations each comprise a waypoint having a geospatial reference; navigating the UAV to ascend to a clearance altitude above a height of the structure; conducting an inspection for an inspection location of the plurality of inspection locations, the inspection comprising; navigating the UAV to a position above a surface of the structure associated with the inspection location, and descending, from the position, to within a particular distance from the surface of the structure based on monitoring an onboard distance measuring device, the onboard distance measuring device measuring distances to locations on the surface, and the particular distance above the surface being determined to obtain at least a particular level of detail in sensor information; and while the UAV is within the particular distance from the surface of the structure, information from one or more sensors describing the structure; navigating the UAV to another inspection location of the plurality of inspection locations; and navigating the UAV to a landing location. - View Dependent Claims (22, 23, 24, 25, 26, 27, 29, 30)
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28. (canceled)
Specification