DocumentCode
2795256
Title
Can Lucas-Kanade be used to estimate motion parallax in 3D cluttered scenes?
Author
Couture, V. ; Langer, M.S.
Author_Institution
McGill Univ., Quebec
fYear
2007
fDate
28-30 May 2007
Firstpage
63
Lastpage
72
Abstract
When an observer moves in a 3D static scene, the motion field depends on the depth of the visible objects and on the observer´s instantaneous translation and rotation. By computing the difference between nearby motion field vectors, the observer can estimate the direction of local motion parallax and in turn the direction of heading. It has recently been argued that, in 3D cluttered scenes such as a forest, computing local image motion using classical optical flow methods is problematic since these classical methods have problems at depth discontinuities. Hence, estimating local motion parallax from optical flow should be problematic as well. In this paper we evaluate this claim. We use the classical Lucas-Kanade method to estimate optical flow and the Rieger-Lawton method to estimate the direction of motion parallax from the estimated flow. We compare the motion parallax estimates to those of the frequency based method of Mann-Langer. We find that if the Lucas-Kanade estimates are sufficiently pruned, using both an eigenvalue condition and a mean absolute error condition, then the Lucas- Kanade/Rieger-Lawton method can perform as well as or better than the frequency-based method.
Keywords
eigenvalues and eigenfunctions; mean square error methods; motion estimation; 3D cluttered scenes; Lucas-Kanade method; Mann-Langer method; Rieger-Lawton method; eigenvalue condition; image motion analysis; mean absolute error condition; motion parallax estimation; optical flow method; Computer science; Eigenvalues and eigenfunctions; Frequency estimation; Image motion analysis; Layout; Motion estimation; Nonlinear optics; Optical computing; Optimization methods; Robustness;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer and Robot Vision, 2007. CRV '07. Fourth Canadian Conference on
Conference_Location
Montreal, Que.
Print_ISBN
0-7695-2786-8
Type
conf
DOI
10.1109/CRV.2007.15
Filename
4228524
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