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Publications de S. Joshi
Résultat de la recherche dans la liste des publications :
Article |
1 - Shape Analysis of Elastic Curves in Euclidean Spaces. S. Joshi et E. Klassen et W. Liu et I. H. Jermyn et A. Srivastava. IEEE Trans. Pattern Analysis and Machine Intelligence, 2010. Note : to appear Mots-clés : shape analysis, elastic deformations, Riemannian elastic metric.
@ARTICLE{Joshi2010,
|
author |
= |
{Joshi, S. and Klassen, E. and Liu, W. and Jermyn, I. H. and Srivastava, A.}, |
title |
= |
{Shape Analysis of Elastic Curves in Euclidean Spaces}, |
year |
= |
{2010}, |
journal |
= |
{IEEE Trans. Pattern Analysis and Machine Intelligence}, |
note |
= |
{to appear}, |
keyword |
= |
{shape analysis, elastic deformations, Riemannian elastic metric} |
} |
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3 Articles de conférence |
1 - Removing Shape-Preserving Transformations in Square-Root Elastic (SRE) Framework for Shape Analysis of Curves. S. Joshi et E. Klassen et A. Srivastava et I. H. Jermyn. Dans Proc. Energy Minimization Methods in Computer Vision and Pattern Recognition (EMMCVPR), Ezhou, China, août 2007. Mots-clés : Forme, Reparameterization, Metrique, Geodesic. Copyright : The original publication is available at www.springerlink.com.
@INPROCEEDINGS{Joshi07b,
|
author |
= |
{Joshi, S. and Klassen, E. and Srivastava, A. and Jermyn, I. H.}, |
title |
= |
{Removing Shape-Preserving Transformations in Square-Root Elastic (SRE) Framework for Shape Analysis of Curves}, |
year |
= |
{2007}, |
month |
= |
{août}, |
booktitle |
= |
{Proc. Energy Minimization Methods in Computer Vision and Pattern Recognition (EMMCVPR)}, |
address |
= |
{Ezhou, China}, |
pdf |
= |
{ftp://ftp-sop.inria.fr/ariana/Articles/2007_Joshi07b.pdf}, |
keyword |
= |
{Forme, Reparameterization, Metrique, Geodesic} |
} |
Abstract :
This paper illustrates and extends an efficient framework, called the square-root-elastic (SRE) framework, for studying shapes of closed curves, that was first introduced in [2]. This framework combines the strengths of two important ideas - elastic shape metric and path-straightening methods - for finding geodesics in shape spaces of curves. The elastic metric allows for optimal matching of features between curves while path-straightening ensures that the algorithm results in geodesic paths. This paper extends this framework by removing two important shape preserving transformations: rotations and re-parameterizations, by forming quotient spaces and constructing geodesics on these quotient spaces. These ideas are demonstrated using experiments involving 2D and 3D curves. |
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2 - A Novel Representation for Riemannian Analysis of Elastic Curves in R^n. S. Joshi et E. Klassen et A. Srivastava et I. H. Jermyn. Dans Proc. IEEE Computer Vision and Pattern Recognition (CVPR), Minneapolis, USA, juin 2007. Mots-clés : Forme, Metrique, Geodesic, A priori.
@INPROCEEDINGS{Joshi07a,
|
author |
= |
{Joshi, S. and Klassen, E. and Srivastava, A. and Jermyn, I. H.}, |
title |
= |
{A Novel Representation for Riemannian Analysis of Elastic Curves in R^n}, |
year |
= |
{2007}, |
month |
= |
{juin}, |
booktitle |
= |
{Proc. IEEE Computer Vision and Pattern Recognition (CVPR)}, |
address |
= |
{Minneapolis, USA}, |
url |
= |
{http://dx.doi.org/10.1109/CVPR.2007.383185}, |
pdf |
= |
{ftp://ftp-sop.inria.fr/ariana/Articles/2007_Joshi07a.pdf}, |
keyword |
= |
{Forme, Metrique, Geodesic, A priori} |
} |
Abstract :
We propose an efficient representation for studying shapes of closed curves in R^n. This paper combines the strengths of two important ideas---elastic shape metric and path-straightening methods---and results in a very fast algorithm for finding geodesics in shape spaces. The elastic metric allows for optimal matching of features between the two curves while path-straightening ensures that the algorithm results in geodesic paths. For the novel representation proposed here, the elastic metric becomes the simple L^2 metric, in contrast to the past usage where more complex forms were used. We present the step-by-step algorithms for computing geodesics and demonstrate them with 2-D as well as 3-D examples. |
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3 - Riemannian Analysis of Probability Density Functions with Applications in Vision. S. Joshi et A. Srivastava et I. H. Jermyn. Dans Proc. IEEE Computer Vision and Pattern Recognition (CVPR), Minneapolis, USA, juin 2007. Mots-clés : Probability density function, Metrique, Geodesic, Reparameterization.
@INPROCEEDINGS{Joshi07,
|
author |
= |
{Joshi, S. and Srivastava, A. and Jermyn, I. H.}, |
title |
= |
{Riemannian Analysis of Probability Density Functions with Applications in Vision}, |
year |
= |
{2007}, |
month |
= |
{juin}, |
booktitle |
= |
{Proc. IEEE Computer Vision and Pattern Recognition (CVPR)}, |
address |
= |
{Minneapolis, USA}, |
url |
= |
{http://dx.doi.org/10.1109/CVPR.2007.383188 }, |
pdf |
= |
{ftp://ftp-sop.inria.fr/ariana/Articles/2007_Joshi07.pdf}, |
keyword |
= |
{Probability density function, Metrique, Geodesic, Reparameterization} |
} |
Abstract :
Applications in computer vision involve statistically analyzing an important class of constrained, non- negative functions, including probability density functions (in texture analysis), dynamic time-warping functions (in activity analysis), and re-parametrization or non-rigid registration functions (in shape analysis of curves). For this one needs to impose a Riemannian structure on the spaces formed by these functions. We propose a em spherical version of the Fisher-Rao metric that provides closed form expressions for geodesics and distances, and allows an efficient computation of statistics. We compare this metric with some previously used metrics and present an application in planar shape classification. |
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