DocumentCode
3093622
Title
Segmentation of visual motion by minimizing convex non-quadratic functionals
Author
Schnörr, C.
Author_Institution
Fachbereich Inf., Hamburg Univ., Germany
Volume
1
fYear
1994
fDate
9-13 Oct 1994
Firstpage
661
Abstract
A minimization problem is proposed to combine smoothing of locally computed motion data (e.g. normal flow) with the detection of motion boundaries. The continuous formulation of the cost functional allows one to incorporate arbitrary continuity-equations which locally determine apparent motion, and a nonlinear smoothing term adapts to the magnitude of the flow-gradient or to its components divergence, rotation, and shear. The approach has been designed such that gradient descent converges to a unique solution
Keywords
minimisation; apparent motion; continuity-equations; convex nonquadratic functionals; cost functional; divergence; flow-gradient; gradient descent; motion boundaries detection; nonlinear smoothing; rotation; shear; visual motion segmentation; Analog computers; Computer networks; Concurrent computing; Cost function; Data flow computing; Equations; Finite element methods; Motion detection; Process control; Smoothing methods;
fLanguage
English
Publisher
ieee
Conference_Titel
Pattern Recognition, 1994. Vol. 1 - Conference A: Computer Vision & Image Processing., Proceedings of the 12th IAPR International Conference on
Conference_Location
Jerusalem
Print_ISBN
0-8186-6265-4
Type
conf
DOI
10.1109/ICPR.1994.576391
Filename
576391
Link To Document