Method and system for quick square roof reporting
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06Q-030/00
G06Q-010/10
출원번호
US-0424054
(2012-03-19)
등록번호
US-9183538
(2015-11-10)
발명자
/ 주소
Thornberry, Chris T.
Thornberry, Dale R.
출원인 / 주소
Pictometry International Corp.
대리인 / 주소
Dunlap Codding, P.C.
인용정보
피인용 횟수 :
3인용 특허 :
127
초록▼
A set of instructions stored on one or more computer readable medium for running on one or more computer systems is described herein. The set of instructions generally may include instructions for identifying a geographic location of a roof, instructions for determining contact information of one or
A set of instructions stored on one or more computer readable medium for running on one or more computer systems is described herein. The set of instructions generally may include instructions for identifying a geographic location of a roof, instructions for determining contact information of one or more contractors within a region of interest of the geographic location of the roof, instructions for determining a footprint of the roof, instructions for determining predominant pitch of the roof, and/or instructions for determining an estimated roofing area based on the predominant pitch and the footprint of the roof.
대표청구항▼
1. One or more non-transitory computer readable medium storing a set of computer executable instructions for running on one or more computer systems that when executed cause the one or more computer systems to: identify a geographic location of a roof; determine a footprint and predominant pitch of
1. One or more non-transitory computer readable medium storing a set of computer executable instructions for running on one or more computer systems that when executed cause the one or more computer systems to: identify a geographic location of a roof; determine a footprint and predominant pitch of the roof by analyzing one or more image showing the roof; determine an estimated roofing area of the roof based on the predominant pitch and the footprint of the roof; and generate a roof report for determination of an amount of materials needed for a construction project, wherein the roof report includes at least one image showing the roof and the estimated roofing area of the roof. 2. The one or more non-transitory computer readable medium storing a set of computer executable instructions for running on one or more computer systems of claim 1, that when executed further cause the one or more computer systems to determine contact information of one or more contractors within a region of interest of the geographic location of the roof, and to provide a roof report, wherein the roof report includes one or more ortho images of the roof, one or more oblique images of the roof, the estimated roofing area and the contact information of one or more contractor within the region of interest of the geographic location of the roof. 3. The one or more non-transitory computer readable medium of claim 2, wherein the roof report includes contact information of the customer. 4. The one or more non-transitory computer readable medium of claim 1, wherein the one or more non-transitory computer readable medium comprises a first non-transitory computer readable medium of a first host system and a second non-transitory computer readable medium of a second host system. 5. The one or more non-transitory computer readable medium of claim 1, wherein identifying the geographic location of the roof further comprises obtaining contact information of a customer. 6. The one or more non-transitory computer readable medium storing a set of computer executable instructions for running on one or more computer systems of claim 1, that when executed further cause the one or more computer systems to receive customer input to validate geographic location of the roof. 7. The one or more non-transitory computer readable medium of claim 6, wherein the geographic location includes coordinates and validation of the geographic location includes instructions for receiving customer input to alter one or more coordinates of the geographic location. 8. The one or more non-transitory computer readable medium of claim 1, wherein identifying a geographic location of the roof includes identifying one or more edges of the roof in an image. 9. The one or more non-transitory computer readable medium storing a set of computer executable instructions for running on one or more computer systems of claim 1, that when executed further cause the one or more computer systems to identify edges of the roof; determine three-dimensional information of the edges including position, orientation and length using multiple oblique images from multiple cardinal directions; and, determine, automatically, one or more line segments forming a portion of a footprint of the roof utilizing position and orientation of the edges. 10. The one or more non-transitory computer readable medium of claim 1, wherein determining the predominant pitch includes determining a plurality of pitch values with each pitch value associated with a portion of the roof, the predominant pitch based on the plurality of pitch values. 11. The one or more non-transitory computer readable medium of claim 10, wherein each pitch value is associated with an estimated percentage of roof area to provide an average pitch value. 12. The one or more non-transitory computer readable medium storing a set of computer executable instructions for running on one or more computer systems of claim 1, that when executed further cause the one or more computer systems to provide the roof report to one or more contractors, the contractor located within the region of interest of the geographic location of the roof. 13. A system, comprising: two or more host systems, each host system having one or more non-transitory computer readable medium;the non-transitory computer readable medium of the first host system storing a set of computer executable instructions that when executed by one or more processors causes the one or more processors to: identify a geographic location of a roof;determine contact information of at least one contractor within a region of interest about the geographic location of the roof;the non-transitory computer readable medium of the second host system storing a set of computer executable instructions that when executed by one or more processors causes the one or more processors to: determine a footprint and predominant pitch of the roof by analyzing one or more image showing the roof;determine an estimated roofing area based on the predominant pitch and the footprint of the roof; and,generate a roof report for determination of an amount of materials needed for a construction project, wherein the roof report includes one or more ortho images of the roof, one or more oblique images of the roof, the estimated roofing area and contact information of one or more contractors within the region of interest. 14. A roofing estimate method, comprising: receiving, by at least one computer processor from a user via a user terminal, a geographic location of a roof;providing to the user, with the computer processor, imagery of the roof based on the geographic location of the roof;determining and providing, with the computer processor, an estimated roofing area based at least on a predominant pitch and a footprint of the roof by analyzing one or more image showing the roof, the footprint of the roof determined at least in part using at least one image of the roof; andgenerating, with the computer processor, a roof report for determination of an amount of materials needed for a construction project, wherein the roof report includes at least one image showing the roof and the estimated roofing area of the roof. 15. The roofing estimate method of claim 14, wherein the roof report further includes contact information of one or more contractor within a region of interest of the geographic location of the roof. 16. The roofing estimate method of claim 14, wherein the footprint of the roof is determined at least in part with oblique images of the roof. 17. The roofing estimate method of claim 14, wherein the predominant pitch value of the roof based at least in part on the footprint of the roof as a boundary of the roof. 18. The roofing estimate method of claim 14, wherein the predominant pitch is based on a weighted average of individual pitch factors for two or more portions of the roof.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (127)
Szeliski Richard ; Shum Heung-Yeung, 3-dimensional image rotation method and apparatus for producing image mosaics.
Harkless Lloyd B. (Londonderry NH) McCracken William L. (Wayland MA) Colosimo Joseph A. (Lexington MA), Apparatus for selectively viewing either of two scenes of interest.
Lareau Andre G. ; Beran Stephen R. ; James Brian ; Quinn James P. ; Lund John, Autonomous electro-optical framing camera system with constant ground resolution, unmanned airborne vehicle therefor, and methods of use.
Hedges Thomas M. (Great Falls VA) Weir David G. (Ormond Beach FL) Speasl Jerry A. (Pleasanton CA), Direct digital airborne panoramic camera system and method.
Lareau Andre G. ; Bennett Russell A. ; Beran Steven R. ; Bown Michael ; Hines George, Electro-optical imaging array and camera system with pitch rate image motion compensation.
Lareau Andre G. ; Bennett Russell A. ; Beran Steven R. ; Bown Michael ; Hines George, Electro-optical imaging array and camera system with pitch rate image motion compensation which can be used in an airpl.
Lareau Andre G. (Bloomingdale IL) Beran Stephen R. (Mount Prospect IL) Lund John A. (McHenry IL) Pfister William R. (Schaumburg IL), Electro-optical imaging array with motion compensation.
Lareau Andre G. ; James Brian ; Pfister William R. ; Jerkatis Kenneth J. ; Beran Stephen R. ; Bennett Russell A., Electro-optical imaging detector array for a moving vehicle which includes two axis image motion compensation and trans.
Myrick E. L. (Merritt Island FL), Geographical surveying using cameras in combination with flight computers to obtain images with overlaid geographical co.
Parulski Kenneth A. (Rochester NY) Hamel Robert H. (Walworth NY) Acello John J. (East Rochester NY), Hand-manipulated electronic camera tethered to a personal computer.
Chang Chi S. (Endicott) Hoffarth Joseph G. (Binghamton) Markovich Voya R. (Endwell) Snyder Keith A. (Vestal) Wiley John P. (Vestal NY), High density circuit board and method of making same.
Szeliski Richard ; Shum Heung-Yeung, Image mosaic construction system and apparatus with patch-based alignment, global block adjustment and pair-wise motion-based local warping.
von Braun Heiko S. (Tankenrain Salzgruben 2 Weilheim D-8120 DEX), Large-scale mapping of parameters of multi-dimensional structures in natural environments.
Abel Robert J. (Newark CA) MacDonald Michael C. (San Jose CA) Wang Peter S. (Cupertino CA), Mapping and analysis system for precision farming applications.
Lachinski Theodore M. (Andover MN) Ptacek Louis S. (Mound MN) Blais Paul M. (St. Paul MN) Boggs Stephen (Fridley MN) Longfellow John W. (St. Paul MN) Setterholm Jeffrey M. (Lakeville MN), Method and apparatus for collecting and processing visual and spatial position information from a moving platform.
Rahmes,Mark; Karp,John; Smith,Anthony; Connetti, Jr.,Stephen, Method and apparatus for enhancing a digital elevation model (DEM) for topographical modeling.
Kumar, Rakesh; Hsu, Stephen Charles; Hanna, Keith; Samarasekera, Supun; Wildes, Richard Patrick; Hirvonen, David James; Klinedinst, Thomas Edward; Lehman, William Brian; Matei, Bodgan; Zhao, Wenyi; L, Method and apparatus for performing geo-spatial registration of imagery.
Lareau Andre G. (Bloomingdale IL) Willey Gilbert W. (Arlington Heights IL) Bennett Russell A. (McHenry IL) Beran Stephen R. (Mount Prospect IL), Method and camera system for step frame reconnaissance with motion compensation.
Kumar Rakesh ; Hanna Keith James ; Bergen James R. ; Anandan Padmanabhan ; Irani Michal, Method and system for image combination using a parallax-based technique.
Cherepenin Vladimir Alexeevich,RUX ; Korjenevsky Alexandr Vladimirovich,RUX ; Kultiasov Yury Sergeevich,RUX, Method for producing a tomographic image of the body and electric impedance tomograph.
Bakewell,Charles Adams, Mobile enforcement platform with aimable violation identification and documentation system for multiple traffic violation types across all lanes in moving traffic, generating composite display images and data to support citation generation, homeland security, and monitoring.
Wight Ralph H. (Northport NY) Wolfe Gregory J. (Port Jefferson Station NY), Nonlinear scanning to optimize sector scan electro-optic reconnaissance system performance.
Heitzman Edward F. (6 Moores Mill Rd. Pennington NJ 08534) Heitzman Edward J. (6 Moores Mill Rd. Pennington NJ 08534), Real time video data acquistion systems.
Kamel Ahmed A. (Sunnyvale CA) Graul Donald W. (San Mateo CA) Savides John (Los Altos Hills CA) Hanson Charles W. (Mountain View CA), Satellite camera image navigation.
Gruber,Michael A.; Leberl,Franz W.; Ponticelli,Martin, Self-calibrating, digital, large format camera with single or multiple detector arrays and single or multiple optical systems.
Selk Kenneth Charles (Hermosa Beach CA) Hirsch Harold J. (Encino CA) Canyon James Carl (Torrance CA) Gower Frederick M. (Manhattan Beach CA), Shielded multilayer printed wiring board, high frequency, high isolation.
Imai Hitoshi (Yokohama JPX) Sugiura Muneharu (Tokyo JPX) Hoashi Katsutoshi (Yokohama JPX), Stereo image forming apparatus having a light deflection member in each optical path.
Olsen Steven L. (Salt Lake City UT) Petrick William R. (Salt Lake City UT) Stodt John A. (Salt Lake City UT), Survey system and method for real time collection and processing of geophysicals data using signals from a global positi.
Olsen Steven L. (Salt Lake City UT) Petrick William R. (Salt Lake City UT) Stodt John A. (Salt Lake City UT), Survey system for collection and real time processing of geophysical data.
Cooper Roger D. (Roatan Tower Court Lubenham Market Harborough Leciester LE16 954 GBX), Video signal processing apparatus for producing a composite signal for simultaneous display of data and video informatio.
Loveland, James Edward; Taylor, Jeffrey Clayton; Lewis, Jeffery Devon; Childs, Bradley McKay; Reed, Corey David; Robertson, Jared William, System and method for construction estimation using aerial images.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.