Stereoscopic analysis: Difference between revisions

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(+OTB Stereo Framework; other links updated)
 
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== GRASS 5 ==
== GRASS 5 ==


; Georeferencing in 3D from multiple 2D images
'''Creating a DEM from overlapping images'''


[[Image:stereo_basic.gif|400px|center]]
[[Image:stereo_basic.gif|400px|center]]
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=== Stereogram ===
=== Stereogram ===
{|
{|
| [[Image:Spearfish_stereogram.jpg|thumb|center|750px|Stereogram created with the d.anaglyph module (requires stereoscope viewer)]]
| [[Image:Spearfish_stereogram.jpg|thumb|center|750px|Stereogram with fiducials created with the d.anaglyph module (requires stereoscope viewer)]]
|-
|-
| [[Image:USGS_stereoscope.jpg|thumb|center|200px|Stereoscope viewer]]
| [[Image:USGS_stereoscope.jpg|thumb|center|200px|Stereoscope viewer]]
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* ''No special viewing equipment needed: just focus into the distance or cross your eyes.''
* ''No special viewing equipment needed: just focus into the distance or cross your eyes.''
* [http://www.jrsdesign.net/cross_parallel_viewing.html Here is a nice how-to-view article]
* [http://www.jrsdesign.net/cross_parallel_viewing.html Here is a nice how-to-view article]
* Screenshot: ''(created with the d.anaglyph module)''




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== See also ==
== See also ==


Visualization:
* The [[Stereo anaglyphs]] wiki page
* The [[Stereo anaglyphs]] wiki page
* [http://www.crssa.rutgers.edu/courses/airphoto/airphoto7/ Principles of Photogrammetry: Stereoscopic Parallax]
* [https://github.com/nasa/StereoPipeline nasa/StereoPipeline]: The NASA Ames Stereo Pipeline is a suite of automated geodesy & stereogrammetry tools designed for processing planetary imagery captured from orbiting and landed robotic explorers on other planets
* [http://hugin.sourceforge.net/ Hugin] (stiches images together) and [http://hugin.sourceforge.net/docs/manual/Autopano-sift-C.html Autopano tools] (finds control points in overlapping image pairs)


Other approaches:
* Structure from Motion (SfM): [http://www.lancaster.ac.uk/staff/jamesm/research/sfm.htm 3D surface and DEM construction from images]
Other software:
* [https://www.orfeo-toolbox.org/CookBook/Applications/app_StereoFramework.html OTB Stereo Framework]
* [http://gn.dronacharya.info/CivilDept/Downloads/question_papers/IVsem/GeoInformatics/Unit1.pdf Principles of Stereoscopic Parallax]
* [https://github.com/NeoGeographyToolkit/StereoPipeline NASA Ames Stereo Pipeline]: a suite of automated geodesy & stereogrammetry tools designed for processing planetary imagery captured from orbiting and landed robotic explorers on other planets
* [http://www.efoto.eng.uerj.br/en e-Foto] is a free educational digital photogrammetric workstation for Mac, Linux, Windows; GNU GPL
* [http://hugin.sourceforge.net/ Hugin] (stiches images together into panoramas) and [https://wiki.panotools.org/Cpfind cpfind tools] (finds control points in overlapping image pairs)


[[Category: FAQ]]
[[Category: FAQ]]

Latest revision as of 10:10, 9 August 2020

GRASS 5

Creating a DEM from overlapping images

There is some old GRASS 5 software in

http://grass.osgeo.org/outgoing/grass5/ → stereo

which does this job. It awaits integration into GRASS 6+.

Tutorial: http://grass.osgeo.org/gdp/stereo-grass/index.html

GRASS 6

Viewing existing data as stereo 3D

The d.anaglyph addon module provides an easy way to create 3D anaglyphs and stereographs. It uses the m.nviz.image module to render two viewpoints, then from those two images composes the 3D image into a single PNG file. In time it should be possible to port this functionality into NVIZ itself.


Anaglyph

Red/cyan anaglyph created with the d.anaglyph module
       

Stereogram

Stereogram with fiducials created with the d.anaglyph module (requires stereoscope viewer)
Stereoscope viewer

"Free-view" Stereogram


See also

Visualization:

Other approaches:

Other software: