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Non-linear Distribution of Descriptors Descriptors are non-linearly distributed.

MVSV. Descriptor-level. X. X. M-PCCA. SVM. Fusion. GMM. Fusion. SVM. Score. Score. Y. Y. GMM. (linear) Kernel-level. X. Fusion. SVM. GMM. Score. Y. GMM. SVM. Score-level. X. Score. Fusion. Score. SVM. GMM. Score. Y. Multi-View Super Vector for Action Recognition

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Non-linear Distribution of Descriptors Descriptors are non-linearly distributed.

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  1. MVSV Descriptor-level X X M-PCCA SVM Fusion GMM Fusion SVM Score Score Y Y GMM (linear) Kernel-level X Fusion SVM GMM Score Y GMM SVM Score-level X Score Fusion Score SVM GMM Score Y Multi-View Super Vector for Action Recognition Zhuowei Cai1, Limin Wang1,2, Xiaojiang Peng1, Yu Qiao1,21Shenzhen Institutes of Advanced Technology 2The Chinese University of Hong Kong Motivation Mixture model of Probabilistic CCA Multi-View Super Vector Experimental Results • Challenges in Action Recognition • Different feature descriptors capture different aspects of object feature. • Current fusion pipelines presume different properties between feature descriptors. • Direct concatenation presumes strong correlation between fusion descriptors. • Kernel average and score fusion prefer mutual independence between fusion descriptors. Typical fusion pipelines: • We utilize the Mixture of Probabilistic Canonical Correlation Analyzers to model a pair of feature descriptors. • M-PCCA factorize descriptors from two sources into a share part between them and two parts specific to each of them. • These parts construct the super vector representation for subsequent classification. • Non-linear Distribution of Descriptors • Descriptors are non-linearly distributed. • Observed descriptor pair share common information. • Mixture model of Probabilistic CCA • Tackle non-linearity with mixture model • Encode shared information by specifying latent variable • Mathematical Formulation • Let v = (x, y), • x, y satisfy • p(v | k) is Gaussian with • In each local Probabilistic CCA, shared information Z and private information λ jointly generate the observed descriptors • Shared information Z is extracted via concatenating latent information zk for each local PCCA • Private information gx is extracted by taking the gradients of the expected loglikelihood with respect to λx (and λy) • Z, gx and gy form the final MVSV. • Comparison of performance on HMDB51. • Comparison of performance on UCF101. • Influence of Parameters • Number of Components • Latent Dimension Our Approach Performance of Different Components

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