Variational Em Inference Algorithm For Gaussian Process Classification Model With Multiclass And Its Application To Human Action Classification

In this paper, we propose the variational EM inference algorithm for the multi-class Gaussian process classification model that can be used in the field of human behavior recognition. This algorithm can drive simultaneously both a posterior distribution of a latent function and estimators of hyper-p...

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Main Authors: Wanhyun Cho, Soonja Kang, Sangkyoon Kim, Soonyoung Park
Format: Text
Language:English
Published: Zenodo 2015
Subjects:
Bayesian rule
Gaussian process classification model with multiclass
Gaussian process prior
human action classification
laplace approximation
variational EM algorithm.
Laplace
Rasmussen
laptev
Online Access:https://dx.doi.org/10.5281/zenodo.1110275
https://zenodo.org/record/1110275
id ftdatacite:10.5281/zenodo.1110275
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Bayesian rule
Gaussian process classification model with multiclass
Gaussian process prior
human action classification
laplace approximation
variational EM algorithm.
spellingShingle Bayesian rule
Gaussian process classification model with multiclass
Gaussian process prior
human action classification
laplace approximation
variational EM algorithm.
Wanhyun Cho
Soonja Kang
Sangkyoon Kim
Soonyoung Park
Variational Em Inference Algorithm For Gaussian Process Classification Model With Multiclass And Its Application To Human Action Classification
topic_facet Bayesian rule
Gaussian process classification model with multiclass
Gaussian process prior
human action classification
laplace approximation
variational EM algorithm.
description In this paper, we propose the variational EM inference algorithm for the multi-class Gaussian process classification model that can be used in the field of human behavior recognition. This algorithm can drive simultaneously both a posterior distribution of a latent function and estimators of hyper-parameters in a Gaussian process classification model with multiclass. Our algorithm is based on the Laplace approximation (LA) technique and variational EM framework. This is performed in two steps: called expectation and maximization steps. First, in the expectation step, using the Bayesian formula and LA technique, we derive approximately the posterior distribution of the latent function indicating the possibility that each observation belongs to a certain class in the Gaussian process classification model. Second, in the maximization step, using a derived posterior distribution of latent function, we compute the maximum likelihood estimator for hyper-parameters of a covariance matrix necessary to define prior distribution for latent function. These two steps iteratively repeat until a convergence condition satisfies. Moreover, we apply the proposed algorithm with human action classification problem using a public database, namely, the KTH human action data set. Experimental results reveal that the proposed algorithm shows good performance on this data set. : {"references": ["C. E. Rasmussen, and C. K. I. Williams, \"Gaussian Processes for\nMachine Learning,\" MIT Press, 2006.", "H. Nicklisch, and C. E. Rasmussen, \"Approximation for Binary Gaussian\nprocess Classification,\" JMLR, 2008, pp. 2035-75.", "A. B. Chan, and D. Dong, \"Generalized Gaussian process model,\" IEEE\nConf. on Computer Vision and Pattern Recognition, Colorado Spring,\n2011.", "A. C. Chan, \"Multivariate generalized Gaussian process models,\" eprint\narXiv: 1311.0360, 2013.", "H. Kim, and Z. Ghahramani, \"Bayesian Gaussian Process Classification\nwith the EM-EP algorithm,\" IEEE Trans. on PAMI, vol. 28, no. 12, pp\n1948-1959, 2006.", "C. E. Rasmussen, and H. Nickisch, The GPML Toolbox version 3.4,\ngaussianprocess.org.", "L. Raskin, E. Rivlin, and M. Rudzsky, \"Using Gaussian Processes for\nHuman tracking and Action Classification\", ISVC 2007, Part 1, LNCS\n4841, pp 36-45, 2007.", "H. Zhou, L. Wang, D. Sutter, \"Human action recognition by\nfearture-reduced Gaussian process classification\", Pattern Recognition\nLetters, v0l. 30, pp 1059-1065, 2009.", "Q. Zhao, L. Zhang, A. Cjchocki, \"A Tensor-Variate Gaussian Process for\nClassification of Multidinensional Structured Data\", Proceeding of the\nTwenty-Seventh AAAI Conference on Artificial Intelligence, pp\n1041-1047, 2013.\n[10] I. Laptev, M. Marszalek, C. Schmid, and B. Rozenfeld, \"Learning\nrealistic human actions from movies,\" in CVPR 2008.\n[11] K. Mikolajczyk and H. Uemura. \"Action recognition with\nmotion-appearance vocabulary forest,\" CVPR, 2008.\n[12] J. Yuan, Z. Liu, and Y. Wu, \"Discriminative Subvolume Search for\nEfficient Action Detection,\" CVPR, 2009.\n[13] M. B. Kaaniche and F. Bremond, \"Gesture Recognition by Learning\nLocal Motion Signatures,\" In CVPR, 2010.\n[14] A. Kovashka and K. Grauman, \"Learning a Hierarchy of Discriminative\nSpace-Time Neighborhood Features for Human Action Recognition,\" In\nCVPR, 2010.\n[15] J. Yin and Y. Meng, \"Human Activity Recognition in Video using a\nHierarchical Probabilistic Latent Model,\" In CVPR, 2010."]}
format Text
author Wanhyun Cho
Soonja Kang
Sangkyoon Kim
Soonyoung Park
author_facet Wanhyun Cho
Soonja Kang
Sangkyoon Kim
Soonyoung Park
author_sort Wanhyun Cho
title Variational Em Inference Algorithm For Gaussian Process Classification Model With Multiclass And Its Application To Human Action Classification
title_short Variational Em Inference Algorithm For Gaussian Process Classification Model With Multiclass And Its Application To Human Action Classification
title_full Variational Em Inference Algorithm For Gaussian Process Classification Model With Multiclass And Its Application To Human Action Classification
title_fullStr Variational Em Inference Algorithm For Gaussian Process Classification Model With Multiclass And Its Application To Human Action Classification
title_full_unstemmed Variational Em Inference Algorithm For Gaussian Process Classification Model With Multiclass And Its Application To Human Action Classification
title_sort variational em inference algorithm for gaussian process classification model with multiclass and its application to human action classification
publisher Zenodo
publishDate 2015
url https://dx.doi.org/10.5281/zenodo.1110275
https://zenodo.org/record/1110275
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op_doi https://doi.org/10.5281/zenodo.1110275
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spelling ftdatacite:10.5281/zenodo.1110275 2023-05-15T17:07:19+02:00 Variational Em Inference Algorithm For Gaussian Process Classification Model With Multiclass And Its Application To Human Action Classification Wanhyun Cho Soonja Kang Sangkyoon Kim Soonyoung Park 2015 https://dx.doi.org/10.5281/zenodo.1110275 https://zenodo.org/record/1110275 en eng Zenodo https://dx.doi.org/10.5281/zenodo.1110274 Open Access Creative Commons Attribution 4.0 https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess CC-BY Bayesian rule Gaussian process classification model with multiclass Gaussian process prior human action classification laplace approximation variational EM algorithm. Text Journal article article-journal ScholarlyArticle 2015 ftdatacite https://doi.org/10.5281/zenodo.1110275 https://doi.org/10.5281/zenodo.1110274 2021-11-05T12:55:41Z In this paper, we propose the variational EM inference algorithm for the multi-class Gaussian process classification model that can be used in the field of human behavior recognition. This algorithm can drive simultaneously both a posterior distribution of a latent function and estimators of hyper-parameters in a Gaussian process classification model with multiclass. Our algorithm is based on the Laplace approximation (LA) technique and variational EM framework. This is performed in two steps: called expectation and maximization steps. First, in the expectation step, using the Bayesian formula and LA technique, we derive approximately the posterior distribution of the latent function indicating the possibility that each observation belongs to a certain class in the Gaussian process classification model. Second, in the maximization step, using a derived posterior distribution of latent function, we compute the maximum likelihood estimator for hyper-parameters of a covariance matrix necessary to define prior distribution for latent function. These two steps iteratively repeat until a convergence condition satisfies. Moreover, we apply the proposed algorithm with human action classification problem using a public database, namely, the KTH human action data set. Experimental results reveal that the proposed algorithm shows good performance on this data set. : {"references": ["C. E. Rasmussen, and C. K. I. Williams, \"Gaussian Processes for\nMachine Learning,\" MIT Press, 2006.", "H. Nicklisch, and C. E. Rasmussen, \"Approximation for Binary Gaussian\nprocess Classification,\" JMLR, 2008, pp. 2035-75.", "A. B. Chan, and D. Dong, \"Generalized Gaussian process model,\" IEEE\nConf. on Computer Vision and Pattern Recognition, Colorado Spring,\n2011.", "A. C. Chan, \"Multivariate generalized Gaussian process models,\" eprint\narXiv: 1311.0360, 2013.", "H. Kim, and Z. Ghahramani, \"Bayesian Gaussian Process Classification\nwith the EM-EP algorithm,\" IEEE Trans. on PAMI, vol. 28, no. 12, pp\n1948-1959, 2006.", "C. E. Rasmussen, and H. Nickisch, The GPML Toolbox version 3.4,\ngaussianprocess.org.", "L. Raskin, E. Rivlin, and M. Rudzsky, \"Using Gaussian Processes for\nHuman tracking and Action Classification\", ISVC 2007, Part 1, LNCS\n4841, pp 36-45, 2007.", "H. Zhou, L. Wang, D. Sutter, \"Human action recognition by\nfearture-reduced Gaussian process classification\", Pattern Recognition\nLetters, v0l. 30, pp 1059-1065, 2009.", "Q. Zhao, L. Zhang, A. Cjchocki, \"A Tensor-Variate Gaussian Process for\nClassification of Multidinensional Structured Data\", Proceeding of the\nTwenty-Seventh AAAI Conference on Artificial Intelligence, pp\n1041-1047, 2013.\n[10] I. Laptev, M. Marszalek, C. Schmid, and B. Rozenfeld, \"Learning\nrealistic human actions from movies,\" in CVPR 2008.\n[11] K. Mikolajczyk and H. Uemura. \"Action recognition with\nmotion-appearance vocabulary forest,\" CVPR, 2008.\n[12] J. Yuan, Z. Liu, and Y. Wu, \"Discriminative Subvolume Search for\nEfficient Action Detection,\" CVPR, 2009.\n[13] M. B. Kaaniche and F. Bremond, \"Gesture Recognition by Learning\nLocal Motion Signatures,\" In CVPR, 2010.\n[14] A. Kovashka and K. Grauman, \"Learning a Hierarchy of Discriminative\nSpace-Time Neighborhood Features for Human Action Recognition,\" In\nCVPR, 2010.\n[15] J. Yin and Y. Meng, \"Human Activity Recognition in Video using a\nHierarchical Probabilistic Latent Model,\" In CVPR, 2010."]} Text laptev DataCite Metadata Store (German National Library of Science and Technology) Laplace ENVELOPE(141.467,141.467,-66.782,-66.782) Rasmussen ENVELOPE(-64.084,-64.084,-65.248,-65.248)

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