Title of article
Multiscale modeling and estimation of motion fields for video coding
Author/Authors
Moulin، نويسنده , , P.، نويسنده , , Krishnamurthy، نويسنده , , R.، نويسنده , , Woods، نويسنده , , J.W.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1997
Pages
15
From page
1606
To page
1620
Abstract
We present a systematic approach to forwardmotion-
compensated predictive video coding. The first step is the
definition of a flexible model that compactly represents motion
fields. The inhomogeneity and spatial coherence properties of
motion fields are captured using linear multiscale models. One
possible design is based on linear finite elements and yields
a multiscale extension of the triangle motion compensation
(TMC) method. The second step is the choice of a computational
technique that identifies the coefficients of the linear model.
We study a modified optical flow technique and minimize a
cost function closely related to Horn and Schunck’s criterion.
The cost function balances accuracy and complexity of the
motion-compensated predictor and is viewed as a measure
of goodness of the motion field. It determines not only the
coefficients of the model, but also the quantization method. We
formulate the estimation and quantization problems jointly as a
discrete optimization problem and solve it using a fast multiscale
relaxation algorithm. A hierarchical extension of the algorithm
allows proper handling of large displacements. Simulations on
a variety of video sequences have produced improvements over
TMC and over the half-pel-accuracy, full-search block matching
algorithm, in excess of 0.5 dB in average. The results are visually
superior as well. In particular, the reconstructed video is entirely
free of blocking artifacts.
Journal title
IEEE TRANSACTIONS ON IMAGE PROCESSING
Serial Year
1997
Journal title
IEEE TRANSACTIONS ON IMAGE PROCESSING
Record number
395950
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