Dimensionality reduction based on determinantal point process and singular spectrum analysis for hyperspectral images

Chen, Weizhao and Yang, Zhijing and Cao, Faxian and Yan, Yijun and Wang, Meilin and Qing, Chunmei and Cheng, Yongqiang (2018) Dimensionality reduction based on determinantal point process and singular spectrum analysis for hyperspectral images. IET Image Processing. ISSN 1751-9659 (https://doi.org/10.1049/iet-ipr.2018.5419)

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Abstract

Dimensionality reduction is of high importance in hyperspectral data processing, which can effectively reduce the data redundancy and computation time for improved classification accuracy. Band selection and feature extraction methods are two widely used dimensionality reduction techniques. By integrating the advantages of the band selection and feature extraction, the authors propose a new method for reducing the dimension of hyperspectral image data. First, a new and fast band selection algorithm is proposed for hyperspectral images based on an improved determinantal point process (DPP). To reduce the amount of calculation, the dual-DPP is used for fast sampling representative pixels, followed by k-nearest neighbour-based local processing to explore more spatial information. These representative pixel points are used to construct multiple adjacency matrices to describe the correlation between bands based on mutual information. To further improve the classification accuracy, two-dimensional singular spectrum analysis is used for feature extraction from the selected bands. Experiments show that the proposed method can select a low-redundancy and representative band subset, where both data dimension and computation time can be reduced. Furthermore, it also shows that the proposed dimensionality reduction algorithm outperforms a number of state-of-the-art methods in terms of classification accuracy.

ORCID iDs

Chen, Weizhao, Yang, Zhijing, Cao, Faxian, Yan, Yijun ORCID logoORCID: https://orcid.org/0000-0003-0224-0078, Wang, Meilin, Qing, Chunmei and Cheng, Yongqiang;
CORE (COnnecting REpositories)