Jiang Han scite author profile

Deep neural networks can learn deep feature representation for hyperspectral image (HSI) interpretation and achieve high classification accuracy in different datasets. However, counterintuitively, the classification performance of deep learning models degrades as their depth increases. Therefore, we add identity mappings to convolutional neural networks for every two convolutional layers to build deep residual networks (ResNets). To study the influence of deep learning model size on HSI classification accuracy, this paper applied ResNets and CNNs with different depth and width using two challenging datasets. Moreover, we tested the effectiveness of batch normalization as a regularization method with different model settings. The experimental results demonstrate that ResNets mitigate the declining-accuracy effect and achieved promising classification performance with 10% and 5% training sample percentages for the University of Pavia and Indian Pines datasets, respectively. In addition, t-Distributed Stochastic Neighbor Embedding (t-SNE) provides a direct view of the extracted features through dimensionality reduction.

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The effect of ultra-fine admixture on the rheological property of cement paste

Zhang

Han

2000

Cement and Concrete Research

140

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A New Post-Quantum Blind Signature From Lattice Assumptions

et al. 2018

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Linear tracking-differentiator and application to online estimation of the frequency of a sinusoidal signal with random noise perturbation

Guo¹,

Han²,

Xi³

2002

International Journal of Systems Science

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Jiang Han

Fully convolutional networks for building and road extraction: Preliminary results

Deep residual networks for hyperspectral image classification

The effect of ultra-fine admixture on the rheological property of cement paste

A New Post-Quantum Blind Signature From Lattice Assumptions

Linear tracking-differentiator and application to online estimation of the frequency of a sinusoidal signal with random noise perturbation

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