Your search keyword '"Wan, Minghua"' showing total 5 results

1. Two-Dimensional Exponential Sparse Discriminant Local Preserving Projections.

Author

Wan, Minghua, Zhang, Yuxi, Yang, Guowei, and Guo, Hongjian

Subjects

*MATRIX exponential, *MATRIX functions, *EXPONENTIAL functions, *SPARSE matrices, *FEATURE selection, *SAMPLE size (Statistics), *IMAGE encryption

Abstract

The two-dimensional discriminant locally preserved projections (2DDLPP) algorithm adds a between-class weighted matrix and a within-class weighted matrix into the objective function of the two-dimensional locally preserved projections (2DLPP) algorithm, which overcomes the disadvantage of 2DLPP, i.e., that it cannot use the discrimination information. However, the small sample size (SSS) problem still exists, and 2DDLPP processes the whole original image, which may contain a large amount of redundant information in the retained features. Therefore, we propose a new algorithm, two-dimensional exponential sparse discriminant local preserving projections (2DESDLPP), to address these problems. This integrates 2DDLPP, matrix exponential function and elastic net regression. Firstly, 2DESDLPP introduces the matrix exponential into the objective function of 2DDLPP, making it positive definite. This is an effective method to solve the SSS problem. Moreover, it uses distance diffusion mapping to convert the original image into a new subspace to further expand the margin between labels. Thus more feature information will be retained for classification. In addition, the elastic net regression method is used to find the optimal sparse projection matrix to reduce redundant information. Finally, through high performance experiments with the ORL, Yale and AR databases, it is proven that the 2DESDLPP algorithm is superior to the other seven mainstream feature extraction algorithms. In particular, its accuracy rate is 3.15%, 2.97% and 4.82% higher than that of 2DDLPP in the three databases, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

2. Supervised Low-Rank Embedded Regression (SLRER) for Robust Subspace Learning.

Author

Wan, Minghua, Yao, Yu, Zhan, Tianming, and Yang, Guowei

Subjects

*FEATURE extraction, *SPARSE matrices, *MATRIX decomposition, *SUPERVISED learning, *LINEAR programming

Abstract

Locality-preserving projection (LPP) has been widely used in feature extraction. However, LPP does not use data category information and uses the ${L}_{2}$ -norm for distance measurement, which is highly sensitive to outliers. In this paper, we consider the LPP weight matrix from a supervised perspective and combine the low-rank regression method to propose a new model to discover and extract features. By using the ${L}_{2,1}$ -norm to constrain the loss function and the regression matrix, not only is the sensitivity to outliers reduced but the low-rank condition of the regression matrix is also restricted. Then, we propose a solution to the optimization problem. Finally, we apply the method to a series of face databases, handwriting digital datasets and palmprint datasets to test the performance, and the experimental results show that this method is effective compared with some existing methods. [ABSTRACT FROM AUTHOR]

Published

2022

3. Sparse two-dimensional discriminant locality-preserving projection (S2DDLPP) for feature extraction.

Author

Wan, Minghua, Yang, Guowei, Sun, Chengli, and Liu, Maoxi

Subjects

*FEATURE extraction, *SPARSE matrices

Abstract

Two-dimensional locality-preserving projection (2DLPP) is an unsupervised method, so it can't use the discrimination information of the sample in the sparse data; elastic net regression can obtain a sparse results of the feature extraction. So, this paper presents a new method for image feature extraction, namely the sparse two-dimensional discriminant locality-preserving projection (S2DDLPP) based on the 2D discriminant locality-preserving projection (2DDLPP) and elastic net regression. By adding the between-class scatter and discrimination information into the objective function of 2DLPP, S2DDLPP uses elastic net regression to obtain an optimal sparse projection matrix with "minimizing the within-class scatter" and "maximizing the between-class scatter." Compared with other methods (2DPCA, 2DPCA-L1, 2DLDA, 2DLPP, 2DDLPP, and 2DDLPP-L1), the experimental results on the ORL, Yale, AR and FERET face database show the effectiveness of the proposed algorithm. [ABSTRACT FROM AUTHOR]

Published

2019

4. Robust latent nonnegative matrix factorization with automatic sparse reconstruction for unsupervised feature extraction.

Author

Wan, Minghua, Cai, Mingxiu, Yang, Zhangjing, Tan, Hai, Yang, Guowei, and Tang, Mingwei

Subjects

*MATRIX decomposition, *NONNEGATIVE matrices, *FEATURE extraction, *SPARSE matrices, *DATA distribution, *INPAINTING, *IMAGE retrieval

Abstract

In recent years, the combination of nonnegative matrix factorization (NMF) and manifold learning has been widely confirmed. Although these methods are successful, there are some shortcomings: 1) The traditional manifold learning methods require predefined manifold geometry, which cannot reasonably reflect intrinsic geometric properties; 2) Most previous methods only consider the robustness of models to noise and outliers, but not occlusion; 3) Many models only contain the local neighborhood structure, but not the global geometric structure. To address these issues, we propose a novel model robust latent nonnegative matrix factorization with sparse reconstruction (RLNMF-SR) to conduct complex classification tasks. Our method utilizes sparse nodes to automatically reconstruct a global-based affinity graph without manually defining the graph structure, which guarantees that our model more accurately grasps the underlying distribution of the data. In addition, by decomposing the principal component with a low-rank structure, we can not only remove redundant features and reduce the computational cost but also obtain a more compact, discriminative and interpretable low-rank representation. At the same time, low-rank restriction can also recover the row and column information of the matrix to decrease the negative effects of noise and occlusion. On the other hand, applying the L2,1-norm to perform part-based nonnegative factorization can also attain the local attribute information of the data and suppress the model's sensitivity to destruction, greatly enhancing the robustness of the RLNMF-SR. Extensive experiments indicate that our method outperforms other state-of-the-art methods, especially on low-quality image datasets. [ABSTRACT FROM AUTHOR]

Published

2023

5. Sparse two-dimensional local discriminant projections for feature extraction

Author

Lai, Zhihui, Wan, Minghua, Jin, Zhong, and Yang, Jian

Subjects

*SPARSE matrices, *FEATURE extraction, *DISCRIMINANT analysis, *METRIC projections, *REGRESSION analysis, *SEMANTIC computing, *SPECTRUM analysis, *INVARIANT subspaces

Abstract

Abstract: Two-dimensional local graph embedding discriminant analysis (2DLGEDA) and two-dimensional discriminant locality preserving projections (2DDLPP) were recently proposed to directly extract features form 2D face matrices to improve the performance of two-dimensional locality preserving projections (2DLPP). But all of them require a high computational cost and the learned transform matrices lack intuitive and semantic interpretations. In this paper, we propose a novel method called sparse two-dimensional locality discriminant projections (S2DLDP), which is a sparse extension of graph-based image feature extraction method. S2DLDP combines the spectral analysis and -norm regression using the Elastic Net to learn the sparse projections. Differing from the existing 2D methods such as 2DLPP, 2DDLP and 2DLGEDA, S2DLDP can learn the sparse 2D face profile subspaces (also called sparsefaces), which give an intuitive, semantic and interpretable feature subspace for face representation. We point out that using S2DLDP for face feature extraction is, in essence, to project the 2D face images on the semantic face profile subspaces, on which face recognition is also performed. Experiments on Yale, ORL and AR face databases show the efficiency and effectiveness of S2DLDP. [Copyright &y& Elsevier]

Published

2011