Yuancheng Huang scite author profile

As a powerful and promising statistical signal modeling technique, sparse representation has been widely used in various image processing and analysis fields. For hyperspectral image classification, previous studies have shown the effectiveness of the sparsity-based classification methods. In this paper, we propose a nonlocal weighted joint sparse representation classification (NLW-JSRC) method to improve the hyperspectral image classification result. In the joint sparsity model (JSM), different weights are utilized for different neighboring pixels around the central test pixel. The weight of one specific neighboring pixel is determined by the structural similarity between the neighboring pixel and the central test pixel, which is referred to as a nonlocal weighting scheme. In this paper, the simultaneous orthogonal matching pursuit technique is used to solve the nonlocal weighted joint sparsity model (NLW-JSM). The proposed classification algorithm was tested on three hyperspectral images. The experimental results suggest that the proposed algorithm performs better than the other sparsitybased algorithms and the classical support vector machine hyperspectral classifier.Index Terms-Classification, hyperspectral imagery, joint sparse representation, nonlocal weight.

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Unsupervised Hyperspectral Band Selection by Dominant Set Extraction

Zhu

Huang

Lei

et al. 2016

IEEE Trans. Geosci. Remote Sensing

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Estimation of Vegetation Water Content From the Radar Vegetation Index at L-Band

Huang

Walker

Gao

et al. 2016

IEEE Trans. Geosci. Remote Sensing

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Hyperspectral Band Selection via Rank Minimization

Zhu

Huang

et al. 2017

IEEE Geosci. Remote Sensing Lett.

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Yuancheng Huang

Hyperspectral Image Classification by Nonlocal Joint Collaborative Representation With a Locally Adaptive Dictionary

A Nonlocal Weighted Joint Sparse Representation Classification Method for Hyperspectral Imagery

Unsupervised Hyperspectral Band Selection by Dominant Set Extraction

Estimation of Vegetation Water Content From the Radar Vegetation Index at L-Band

Hyperspectral Band Selection via Rank Minimization

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