Stochastic Meta-Descent for Tracking Articulated Structures
M. Bray, E. Koller-Meier, N. N. Schraudolph,
and L. Van Gool. Stochastic Meta-Descent for Tracking Articulated
Structures. In IEEE Workshop on Articulated and Nonrigid Motion,
Conference on Computer Vision and Pattern Recognition (CVPR), Washington, D.C.,
2004.
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Abstract
Recently, an optimization approach for fast visual tracking of articulated structures based on Stochastic Meta-Descent (SMD) has been presented. SMD is a gradient descent with local step size adaptation that combines rapid convergence with excellent scalability. Stochastic sampling helps to avoid local minima in the optimization process. We have extended the SMD algor ithm with new features for fast and accurate tracking by adapting the different step sizes between as well as within video frames and by introducing a robust likelihood function which incorporates both depths and surface orientati ons. A realistic deformable hand model reinforces the accuracy of our tracker. The advantages of the resulting tracker over state-of-the-art methods are corroborated through experiments.
BibTeX Entry
@inproceedings{BraKolSchVan04,
author = {Matthieu Bray and Esther Koller-Meier and
Nicol N. Schraudolph and Luc Van~Gool},
title = {\href{http://nic.schraudolph.org/pubs/BraKolSchVan04.pdf}{
Stochastic Meta-Descent for Tracking Articulated Structures}},
booktitle = {IEEE Workshop on Articulated and Nonrigid Motion,
Conference on Computer Vision and Pattern Recognition (CVPR)},
address = {Washington, D.C.},
year = 2004,
b2h_type = {Other},
b2h_topic = {>Stochastic Meta-Descent, Computer Vision},
b2h_note = {<a href="b2hd-BraKolSchVan07.html">Latest version</a>},
abstract = {
Recently, an optimization approach for fast visual tracking of
articulated structures based on Stochastic Meta-Descent (SMD)
has been presented. SMD is a gradient descent with local step size
adaptation that combines rapid convergence with excellent scalability.
Stochastic sampling helps to avoid local minima in the optimization
process. We have extended the SMD algor ithm with new features for
fast and accurate tracking by adapting the different step sizes
between as well as within video frames and by introducing a robust
likelihood function which incorporates both depths and surface
orientati ons. A realistic deformable hand model reinforces the
accuracy of our tracker. The advantages of the resulting tracker
over state-of-the-art methods are corroborated through experiments.
}}