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Fast Local Representation Learning With Adaptive Anchor Graph

Canyu Zhang, Feiping Nie, Zheng Wang, Rong Wang, Xuelong Li

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    Length: 00:09:13
09 Jun 2021

Dimension reduction is an effective technology to embed data with high dimension to lower subspace, where Linear Discriminant Analysis (LDA), one of representative methods, only works with Gaussian distribution data. However, in order to solve non-Gaussian issue that only one cluster cannot well fit the distribution of same class, many graph-based discriminant analysis methods are proposed which capture local structure through measuring each pairwise distance. This is expense of time complexity because of the full-connections. In order to solve this issue, we propose a fast local representation learning with adaptive anchor graph to learn local structure information through similarity matrix in anchor-based graph. Notably, anchor points and similarity matrix are updated in subspace which is more precisely to capture local discriminant information. Experimental results on several synthetic and well-known datasets demonstrate the advantages of our method over the state-of-the-art methods.

Chairs:
Robert Jenssen

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