A Hyperspectral Image NSST-HMF Model and Its Application in HS-Pansharpening

A Hyperspectral Image NSST-HMF Model and Its Application in HS-Pansharpening

The high spectral resolution of hyperspectral (HS) images provides the possibility of omnidirectional feature identification of objects. However, the high-dimensional features and the high redundancy information properties make data processing and the application of HS images extremely challenging....

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Bibliographic Details
Published in:IEEE transactions on geoscience and remote sensing Vol. 58; no. 7; pp. 4803 - 4817
Main Authors: Wang, Xianghai, Mu, Zhenhua, Song, Ruoxi, Tao, Jingzhe, Song, Chuanming
Format: Journal Article
Language:English
Published: New York IEEE 01-07-2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Aggregation
Amplitude modulation
Clustering
Coefficients
Collaboration
Correlation
Data analysis
Data processing
Hidden Markov forest (HMF) model
Hidden Markov models
HS-pansharpening
hyperspectral (HS) image
Hyperspectral imaging
Information processing
Mathematical models
nonsubsampled shearlet transform (NSST)
Predictive models
Probability theory
Properties
Properties (attributes)
Redundancy
Remote sensing
Resolution
Spatial discrimination
Spatial resolution
spatial–spectral collaborate correlation
Spectra
Spectral resolution
Statistical analysis
Statistical models
Transforms
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Summary:The high spectral resolution of hyperspectral (HS) images provides the possibility of omnidirectional feature identification of objects. However, the high-dimensional features and the high redundancy information properties make data processing and the application of HS images extremely challenging. Thus, effectively expressing and correlating the intrinsic correlations of HS images by establishing a statistical model is of great significance. This article proposes a nonsubsampled shearlet transform hidden Markov forest (NSST-HMF) model. This new approach has three key characteristics: 1) the statistical properties of the NSST coefficients are studied in the spatial and spectral directions, respectively, and the "clustering" and "aggregation" properties are observed in both directions; 2) the HMF structure is proposed to depict the multidimensional collaborative correlation of the HS image NSST coefficients, and the proposed method considers the multidirectional transfer relationships among the Markov structure of HS images NSST coefficient for the first time, which significantly improves the prediction ability of the model; and 3) a novel HS-pansharpening approach based on the NSST-HMF model and amplitude modulation of large state probability in the high-frequency subband direction region is proposed. Experimental results show that our method can efficiently improve the spatial resolution of HS images while simultaneously preserving their spectral features. The HMF structure is first proposed in this article, which provides a way to depict the collaborative correlation of multichannel images.
ISSN:0196-2892
1558-0644
DOI:10.1109/TGRS.2020.2967549