DocumentCode
3559479
Title
Shape and Motion Reconstruction from 3D-to-1D Orthographically Projected Data via Object-Image Relations
Author
Ferrara, Matthew ; Arnold, Gregory ; Stuff, Mark
Author_Institution
Air Force Res. Lab., Dayton, OH, USA
Volume
31
Issue
10
fYear
2009
Firstpage
1906
Lastpage
1912
Abstract
This paper describes an invariant-based shape- and motion reconstruction algorithm for 3D-to-1D orthographically projected range data taken from unknown viewpoints. The algorithm exploits the object-image relation that arises in echo-based range data and represents a simplification and unification of previous work in the literature. Unlike one proposed approach, this method does not require uniqueness constraints, which makes its algorithmic form independent of the translation removal process (centroid removal, range alignment, etc.). The new algorithm, which simultaneously incorporates every projection and does not use an initialization in the optimization process, requires fewer calculations and is more straightforward than the previous approach. Additionally, the new algorithm is shown to be the natural extension of the approach developed by Tomasi and Kanade for 3D-to-2D orthographically projected data and is applied to a realistic inverse synthetic aperture radar imaging scenario, as well as experiments with varying amounts of aperture diversity and noise.
Keywords
image motion analysis; image reconstruction; object detection; optimisation; radar cross-sections; radar imaging; synthetic aperture radar; aperture diversity; echo-based range data; invariant-based shape reconstruction algorithm; inverse synthetic aperture radar imaging; motion reconstruction algorithm; object-image relation; optimization process; orthographically projected data; translation removal process; Computer vision; Geometric invariants; Invariants; Motion; Projections; Range data; Shape; factorization method; moving-target imaging.; object-image relation; orthographic projection; shape from motion;
fLanguage
English
Journal_Title
Pattern Analysis and Machine Intelligence, IEEE Transactions on
Publisher
ieee
Conference_Location
12/12/2008 12:00:00 AM
ISSN
0162-8828
Type
jour
DOI
10.1109/TPAMI.2008.294
Filename
4711057
Link To Document