Constrained-Target Band Selection With Subspace Partition for Hyperspectral Target Detection

Hyperspectral target detection is widely used in both military and civilian fields. In practical applications, how to select a low-correlation and representative band subset to reduce redundancy is worth discussing. However, most of the existing band selection (BS) methods usually select bands accor...

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Published inIEEE journal of selected topics in applied earth observations and remote sensing Vol. 14; pp. 9147 - 9161
Main Authors Sun, Xudong, Zhang, Hongqi, Xu, Fengqiang, Zhu, Yuan, Fu, Xianping
Format Journal Article
LanguageEnglish
Published Piscataway IEEE 2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Band selection (BS)
Benthos
constrained-target band prioritization (BP)
Correlation
Detection
Feasibility studies
Feature extraction
Hyperspectral imaging
hyperspectral target detection
Marine aquaculture
Object detection
Redundancy
Statistical methods
subspace partition
Subspaces
Sun
Target detection
Task analysis
Variance
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Summary:Hyperspectral target detection is widely used in both military and civilian fields. In practical applications, how to select a low-correlation and representative band subset to reduce redundancy is worth discussing. However, most of the existing band selection (BS) methods usually select bands according to the statistics or correlation, which neglect the spectral characteristics of the desired target and are not specially designed for target detection. Therefore, this article proposed a novel BS method, called constrained-target BS with subspace partition (CTSPBS), to select an optimal subset with low internal correlation and strong target representability for the target detection task. By using a specially designed subspace partition method based on correlation distance (CDSP), CTSPBS divides the hyperspectral bands into several unrelated subspaces. Then, according to certain constrained-target band prioritization (BP) criteria, the band with the highest priority in each subset is selected to form the optimal subset for a specific target. Correspondingly, two versions of the proposed method, minimum variance BS with CDSP (CDSP_MinV) and minimum variance BS with CDSP (CDSP_MaxV), are derived to implement CTSPBS. Extensive experiments on three public hyperspectral datasets demonstrate that the proposed method exhibit more robust and effective performance than several state-of-the-art methods. Finally, this article focuses on the difficulty of marine benthos detection in mariculture application and proves the feasibility of the proposed method.
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content type line 14
ISSN:1939-1404
2151-1535
DOI:10.1109/JSTARS.2021.3109455