A chromaticity-brightness model for imaging processing in a "u + v" framework
 
 
Description: 

In imaging processing many important issues arise such as image segmentation, color restoration, and image denoising. A rigorous mathematical analysis is needed to validate the extensive numerical analysis literature in this field, and to open new avenues on image recolorization using the chromaticity-brightness model, usually considered as reducing shadowing and providing better simulation results.

In this seminar we will address an imaging processing problem aimed at denoising colored images using a "u+v" model as in [Me] coupled with a chromaticity-brightness decomposition approach as in [KaMa]. It amounts to solve a minimization problem associated with functionals defined in the product of the space BV of functions of bounded variation with the set of S2-valued BV functions. The key step is the derivation of an integral representation of the associated relaxed functionals. This is a joint work with Irene Fonseca (Carnegie Mellon University) and Luísa Mascarenhas (Faculdade de Ciências e Tecnologia - UNL).


 [KaMa] S.H. Kang and R.  March, Variational Models for Image Colorization via Chromaticity and Brightness Decomposition, IEEE Trans. Image Process. 16 (9), 2251-2261 (2007)

 [Me] Y.  Meyer, Oscillating Patterns in Image Processing and Nonlinear Evolutions Equations. The Fifteenth Dean Jacqueline B. Lewis Memorial Lectures, University Lecture Series, Vol. 22, Amer. Math. Soc., 2001

Date:  2013-06-14
Start Time:   14:30
Speaker:  Rita Gonçalves Ferreira (IST/CMA)
Institution:  IST/ CMA
Place:  Sala 5.5
Research Groups: -Analysis
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