successful in finding conjugate points on edges. The system is
primarily designed for spaceborne images, and the available
resolution of Cartosat-2 and commercially available images
permits extraction and representation of man-made structures.
Detail roof reconstruction and representing complex roof
structure may not be possible. A good photogrammetric
framework provides the desired accuracy. Generated site
models represent the area under consideration fairly well and
can be used for various planning and other applications.
REFERENCES
Baillard C.,Schmid C., Zisserman A. and Fitzgibbon
A.,1999.Automatic line matching and 3D reconstruction of
buildings from multiple views, in ISPRS conference on
automatic extraction of GIS objects from digital imagery,
IAPRS volume 32, Part 3-2W5 , pp. 69-80
Blender 2.6.2, www.blender.org, last accessed on 20 April 2012
Canny J F, 1986, Computational; approach to edge detection,
IEEE transactions on Pattern Analysis and Machine Intelligence
8, pp 679-698..
Gruen A , Xinhua Wang, 1999. Cyber City Modeler, a tool for
interactive 3-D city model generation. In: German
Photogrammetry Week, August, 1999, Stuttgart, Germany
GoogleEarth,www.google.com/earth/explore/showcase/3dbuild
ings.html, last accessed on 10 January 2012
Kraub Thomas, Manfred Lehner, Peter Reintarz, 2008.
Generation of coarse 3-D models of urban areas from high
resolution stereo satellite images. In: International archives of
the photogrammetry, remote sensing and spatial information
sciences, vol XXXVII, part B1, pp 1091-1098, Beijing
Liang-Chien Chen, Tee-Ann TEo, Chien-Liang Liu, May 2006,
The Geometrical Comparisions of RSM and RFM for Formosat
—2 Satellite Images. Photogrammetric Engineering and Remote
Sensing Vol.72 No:5 , 573-579.
Mahapatra Archana, R Ramchandran, and R Krishnan, 2004.
Modeling the Uncertainty in Orientation of IRS-1C/1D with A
rigorous Photogrammetric Model.PE & RS, 70(8), pp 939-946
Nagasubramanian V. , Radhadevi P.V. , Ramachandran R. ,
and Krishnan R. 2007. Rational function model for sensor
orientation of IRS-P6 Liss-4 imagery. The Photogrammetric
Record, 22(120), pp 309-320.
Ok, A.O.; Wegner, J.D.; Heipke, C.; Rottensteiner, F.; Soergel,
U.; Toprak, V. (2010): A new straight line reconstruction
methodology from multi-spectral stereo aerial images, In:
Proceedings of Photogrammetric Computer Vision and Image
Analysis Conference, IntArchPhRS vol. XXXVIII, part 3A,
Paris, 2010, pp. 25-30
Park, S., Lee, K., and Lee, S., 2000. A Line Feature Matching
Technique Based on an Eigenvector Approach, Computer
Vision and Image Understanding, 77, pp. 263-283.
Scholze, S., Moons, T., Ade, F., Van Gool, L., 2000. Exploiting
Color for Edge Extraction and Line Segment Stereo Matching.
In: IAPRS, 815—822.
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXIX-B3, 2012
XXII ISPRS Congress, 25 August — 01 September 2012, Melbourne, Australia
Schmid, C. and Zisserman, A., 1997. Automatic Line Matching
Across Views. In: Proceedings of CVPR, pp. 666—671.
Tao C.V. and HU, Y., July 2002. 3-D Reconstruction methods
based on the Rational Function Model, Photogrammetric
Engineering and Remote Sensing Vol. 68, No: 7, 705-714.
Ulm K and Daniela Poli. 3D city with Cybercity modeller. In:1
st EARSeL Workshop of the SIG Urban Remote Sensing
Humboldt-Universität zu Berlin, 2-3 March 2006.
Vosselman G, Dijkman D, 2001. 3D building model
reconstruction from point clouds and ground plans. In:
International Archives of Photogrammetry and Remote Sensing,
Vol XXXIV-2/W4 Annapolis, MD
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