Rotation Equivariant Convolutional Neural Networks for Hyperspectral Image Classification

被引:23
|
作者
Paoletti, Mercedes E. [1 ]
Haut, Juan M. [1 ]
Roy, Swalpa Kumar [2 ]
Hendrix, Eligius M. T. [3 ]
机构
[1] Univ Extremadura, Dept Technol Comp & Commun, Hyperspectral Comp Lab, Escuela Politecn, Caceres 10003, Spain
[2] Jalpaiguri Govt Engn Coll, Dept Comp Sci & Engn, Jalpaiguri 735102, India
[3] Univ Malaga, Dept Comp Architecture, Malaga 29016, Spain
来源
IEEE ACCESS | 2020年 / 8卷
关键词
Feature extraction; Data models; Data mining; Support vector machines; Convolutional neural networks; Hyperspectral imaging; Computer architecture; Hyperspectral imaging (HSI); convolutional neural network (CNN); harmonic network (H-net); rotation invariance; SPECTRAL-SPATIAL CLASSIFICATION; INVARIANT TEXTURE CLASSIFICATION; DIMENSIONALITY REDUCTION; MORPHOLOGICAL PROFILES; CHLOROPHYLL CONTENT; VEGETATION INDEXES; NEAREST-NEIGHBOR; RANDOM FOREST; REMOTE; SPECTROMETER;
D O I
10.1109/ACCESS.2020.3027776
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
Detection of surface material based on hyperspectral imaging (HSI) analysis is an important and challenging task in remote sensing. It is widely known that spectral-spatial data exploitation performs better than traditional spectral pixel-wise procedures. Nowadays, convolutional neural networks (CNNs) have shown to be a powerful deep learning (DL) technique due their strong feature extraction ability. CNNs not only combine spectral-spatial information in a natural way, but have also shown to be able to learn translation-equivariant representations, i.e. a translation of input features into an equivalent internal CNN feature map. This provides great robustness to spatial feature locations. However, as far as we know, CNNs do not exhibit a natural way to exploit rotation equivariance, i.e. make use of the fact that data patches in a HSI data cube are observed in different orientations due to their orientation or on the varying paths/orbits of the airborne/spaceborne spectrometers. This article presents a rotation-equivariant CNN2D model for HSI analysis, where traditional convolution kernels have been replaced by circular harmonic filters (CHFs). The obtained results over three well-known HSI datasets showcase the potential of the approach.
引用
收藏
页码:179575 / 179591
页数:17
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