Shujie Han scite author profile

Shujie Han

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25Publications

55Citation Statements Received

76Citation Statements Given

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Affiliations

Taiyuan University of Technology, Chinese University of Hong Kong, Tianjin University of Science and Technology

Publications

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A Novel Multimodal Biometrics Recognition Model Based on Stacked ELM and CCA Methods

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Multimodal biometrics combine a variety of biological features to have a significant impact on identification performance, which is a newly developed trend in biometrics identification technology. This study proposes a novel multimodal biometrics recognition model based on the stacked extreme learning machines (ELMs) and canonical correlation analysis (CCA) methods. The model, which has a symmetric structure, is found to have high potential for multimodal biometrics. The model works as follows. First, it learns the hidden-layer representation of biological images using extreme learning machines layer by layer. Second, the canonical correlation analysis method is applied to map the representation to a feature space, which is used to reconstruct the multimodal image feature representation. Third, the reconstructed features are used as the input of a classifier for supervised training and output. To verify the validity and efficiency of the method, we adopt it for new hybrid datasets obtained from typical face image datasets and finger-vein image datasets. Our experimental results demonstrate that our model performs better than traditional methods.

A Simulation Analysis of Reliability in Erasure-Coded Data Centers

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2017

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Improved Real-Time Facial Expression Recognition Based on a Novel Balanced and Symmetric Local Gradient Coding

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In the field of Facial Expression Recognition (FER), traditional local texture coding methods have a low computational complexity, while providing a robust solution with respect to occlusion, illumination, and other factors. However, there is still need for improving the accuracy of these methods while maintaining their real-time nature and low computational complexity. In this paper, we propose a feature-based FER system with a novel local texture coding operator, named central symmetric local gradient coding (CS-LGC), to enhance the performance of real-time systems. It uses four different directional gradients on 5 × 5 grids, and the gradient is computed in the center-symmetric way. The averages of the gradients are used to reduce the sensitivity to noise. These characteristics lead to symmetric of features by the CS-LGC operator, thus providing a better generalization capability in comparison to existing local gradient coding (LGC) variants. The proposed system further transforms the extracted features into an eigen-space using a principal component analysis (PCA) for better representation and less computation; it estimates the intended classes by training an extreme learning machine. The recognition rate for the JAFFE database is 95.24%, whereas that for the CK+ database is 98.33%. The results show that the system has advantages over the existing local texture coding methods.

Toward Adaptive Disk Failure Prediction via Stream Mining

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SimEDC: A Simulator for the Reliability Analysis of Erasure-Coded Data Centers

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2019

IEEE Trans. Parallel Distrib. Syst.

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Robust Data Preprocessing for Machine-Learning-Based Disk Failure Prediction in Cloud Production Environments

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et al. 2019

Preprint

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A Simulation Analysis of Redundancy and Reliability in Primary Storage Deduplication

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IEEE Trans. Comput.

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General Feature Selection for Failure Prediction in Large-scale SSD Deployment

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et al. 2021

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