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'Photogrammetry' is a remote sensing technology in which geometric properties about objects are determined from photographic images. For example, the three-dimensional coordinates of points on an object are determined by measurements made in two or more photographic images taken from different positions (see stereoscopy).
Common points are identified on each image. A line of sight (or ray) can be constructed from the camera location to the point on the object. It is the intersection of these rays (triangulation) that determines the three-dimensional location of the point. More sophisticated algorithms can exploit other information about the scene that is known ''a priori'', for example symmetries, in some cases allowing reconstructions of 3D coordinates from only one camera position.
Photogrammetry is used in different fields, such as topographic mapping, architecture, engineering, manufacturing, quality control, police investigation, and geology, as well as by archaeologists to quickly produce plans of large or complex sites. It is also used to combine live action with computer generated imagery in movie post-production; ''Fight Club'' is an excellent example of the use of photogrammetry in film.
Algorithms for photogrammetry typically express the problem as that of minimizing the sum of the squares of a set of errors. The minimization is itself often performed using the Levenberg-Marquardt algorithm (also known as bundle adjustment).
''Photogrammetry'' uses methods from many disciplines including optics and projective geometry. The data model on the right shows what type of information can go into and come out of photogrammetric methods.
The ''3D co-ordinates'' define the locations of object points in the 3D space. The ''image co-ordinates'' define the locations of the object points' images on the film or an electronic imaging device. The ''exterior orientation'' of a camera defines its location in space and its view direction. The ''inner orientation'' defines the geometric parameters of the imaging process. This is primarily the focal length of the lens, but can also include the description of lens distortions. Further ''additional observations'' play an important role: With ''scale bars'', basically a known distance of two points in space, or known ''fix points'', the connection to the basic measuring units is created.
Each of the four main variables can be an ''input'' or a ''result'' of a photogrammetric method.
★ BAE SYSTEMS Geospatial eXploitation Products, United Kingdom
★ Blom, Norway
★ Geodis, Czech Republic
★ Geofoto, Croatia
★ Hansa Luftbild, Germany
★ Leica Geosystems Geospatial Imaging, Germany
★ Simmons Aerofilms, England
★ Land Surveying
★ Geomatics engineering
★ Videogrammetry
★ Panoscan
★ Socet set
★ Leica
★ University College London Department of Geomatic Engineering
★ University of Massachusetts Areial and Remote Sensing Laboratory
★ International Society for Photogrammetry and Remote Sensing
★ American Society for Photogrammetry and Remote Sensing
★ Introduction to Photogrammetry from University of Vienna
★ Aerial Photogrammetry and Close Range Photogrammetry Holland
★ MATIS LABORATORY,IGN,FR
★ BAE SYSTEMS Geospatial eXploitation Products
★ Leica Geosystems Geospatial Imagining
★ Caltech's Matlab Camera Calibration Toolbox (free for non-commercial)
★ Intel's Open Sourced Computer Vision Library for c/c++
Common points are identified on each image. A line of sight (or ray) can be constructed from the camera location to the point on the object. It is the intersection of these rays (triangulation) that determines the three-dimensional location of the point. More sophisticated algorithms can exploit other information about the scene that is known ''a priori'', for example symmetries, in some cases allowing reconstructions of 3D coordinates from only one camera position.
Photogrammetry is used in different fields, such as topographic mapping, architecture, engineering, manufacturing, quality control, police investigation, and geology, as well as by archaeologists to quickly produce plans of large or complex sites. It is also used to combine live action with computer generated imagery in movie post-production; ''Fight Club'' is an excellent example of the use of photogrammetry in film.
Algorithms for photogrammetry typically express the problem as that of minimizing the sum of the squares of a set of errors. The minimization is itself often performed using the Levenberg-Marquardt algorithm (also known as bundle adjustment).
| Contents |
| Photogrammetric methods |
| Notable European photogrammetric companies |
| See also |
| External links |
Photogrammetric methods
''Photogrammetry'' uses methods from many disciplines including optics and projective geometry. The data model on the right shows what type of information can go into and come out of photogrammetric methods.
The ''3D co-ordinates'' define the locations of object points in the 3D space. The ''image co-ordinates'' define the locations of the object points' images on the film or an electronic imaging device. The ''exterior orientation'' of a camera defines its location in space and its view direction. The ''inner orientation'' defines the geometric parameters of the imaging process. This is primarily the focal length of the lens, but can also include the description of lens distortions. Further ''additional observations'' play an important role: With ''scale bars'', basically a known distance of two points in space, or known ''fix points'', the connection to the basic measuring units is created.
Each of the four main variables can be an ''input'' or a ''result'' of a photogrammetric method.
Notable European photogrammetric companies
★ BAE SYSTEMS Geospatial eXploitation Products, United Kingdom
★ Blom, Norway
★ Geodis, Czech Republic
★ Geofoto, Croatia
★ Hansa Luftbild, Germany
★ Leica Geosystems Geospatial Imaging, Germany
★ Simmons Aerofilms, England
See also
★ Land Surveying
★ Geomatics engineering
★ Videogrammetry
★ Panoscan
★ Socet set
★ Leica
External links
★ University College London Department of Geomatic Engineering
★ University of Massachusetts Areial and Remote Sensing Laboratory
★ International Society for Photogrammetry and Remote Sensing
★ American Society for Photogrammetry and Remote Sensing
★ Introduction to Photogrammetry from University of Vienna
★ Aerial Photogrammetry and Close Range Photogrammetry Holland
★ MATIS LABORATORY,IGN,FR
★ BAE SYSTEMS Geospatial eXploitation Products
★ Leica Geosystems Geospatial Imagining
★ Caltech's Matlab Camera Calibration Toolbox (free for non-commercial)
★ Intel's Open Sourced Computer Vision Library for c/c++
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