Abstract
Convolutional neural networks (CNNs) have exhibited excellent performance in hyperspectral image classification. However, due to the lack of labeled hyperspectral data, it is difficult to achieve high classification accuracy of hyperspectral images with fewer training samples. In addition, although some deep learning techniques have been used in hyperspectral image classification, due to the abundant information of hyperspectral images, the problem of insufficient spatial spectral feature extraction still exists. To address the aforementioned issues, a spectral–spatial attention fusion with a deformable convolution residual network (SSAF-DCR) is proposed for hyperspectral image classification. The proposed network is composed of three parts, and each part is connected sequentially to extract features. In the first part, a dense spectral block is utilized to reuse spectral features as much as possible, and a spectral attention block that can refine and optimize the spectral features follows. In the second part, spatial features are extracted and selected by a dense spatial block and attention block, respectively. Then, the results of the first two parts are fused and sent to the third part, and deep spatial features are extracted by the DCR block. The above three parts realize the effective extraction of spectral–spatial features, and the experimental results for four commonly used hyperspectral datasets demonstrate that the proposed SSAF-DCR method is superior to some state-of-the-art methods with very few training samples.
Highlights
Hyperspectral images (HSIs) are three-dimensional images captured by some aerospace vehicles that carry hyperspectral imagers
We propose a new way to extract spectral–spatial features of HSIs, i.e., the spectral and low-level spatial features of HSIs are extracted with a 3D Convolutional neural networks (CNNs), and the high-level spatial features are extracted by a 2D CNN
The Pavia University dataset was obtained by the ROSIS sensors and is often used for hyperspectral image classification
Summary
Hyperspectral images (HSIs) are three-dimensional images captured by some aerospace vehicles that carry hyperspectral imagers. Each pixel of an image contains hundreds of units of reflected information of different bands, which makes such images suitable for many practical applications, such as military target detection, mineral exploration, and agricultural production ([1,2,3,4], etc.) Much excellent research has been performed in the field of hyperspectral image analysis and processing, including in the classification of HSIs. Spectral information is an effective tool for monitoring the Earth’s surface. The classification of HSIs is intended to assign each pixel to a certain category based on its spatial and spectral characteristics. The ability to make full use of the spatial and spectral information contained in HSIs is the key to improving the classification accuracy
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