Jiong Jia scite author profile

Abstract. Recently, image classification has been an active research topic due to the urgent need to retrieve and browse digital images via semantic keywords. Based on the success of low-rank matrix recovery which has been applied to statistical learning, computer vision and signal processing, this paper presents a novel low-rank matrix recovery algorithm with discriminant regularization. Standard low-rank matrix recovery algorithm decomposes the original dataset into a set of representative basis with a corresponding sparse error for modeling the raw data. Motivated by the Fisher criterion, the proposed method executes low-rank matrix recovery in a supervised manner, i.e., taking the with-class scatter and between-class scatter into account when the whole label information is available. The paper shows that the formulated model can be solved by the augmented Lagrange multipliers, and provide additional discriminating ability to the standard low-rank models for improved performance. The representative bases learned by the proposed method are encouraged to be structural coherence within the same class, and as independent as possible between classes. Numerical simulations on face recognition tasks demonstrate that the proposed algorithm is competitive with the state-of-the-art alternatives.

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Orthodoxy Basis Functions and Convergence Property in Procedure Neural Networks

Jia

Liang

2004

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Fisher discrimination based low rank matrix recovery for face recognition

Zheng

Jia

et al. 2014

Pattern Recognition

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Jiong Jia

Gabor feature-based face recognition using supervised locality preserving projection

Facial feature localization based on an improved active shape model

Low-Rank Matrix Recovery with Discriminant Regularization

Orthodoxy Basis Functions and Convergence Property in Procedure Neural Networks

Fisher discrimination based low rank matrix recovery for face recognition

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