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Improved Three-Dimensional Inception Networks for Hyperspectral Remote Sensing Image Classification

Xiaoxia Zhang

2023IEEE Access24 citationsDOIOpen Access PDF

Abstract

Convolutional neural networks (CNNs) have been applied to the categorization of hyperspectral images. Typically, CNNs employ fixed convolution kernel sizes. This may be complicated by the high-dimensional features and the spatial-spectral features variability of hyperspectral data. In such situation, dealing with various dataset types flexibly is hampered by the fixed kernel size. Therefore, we chose a parallel design, an upgraded three-dimensional (3D) inception network, for hyperspectral image classification. Additionally, the adaptive band selection of hyperspectral remote sensing data employs dimensionality reduction based on interactive information entropy, allowing the selection of low-redundant bands with more abundant and discriminative information. Experimental results based on the publicly available hyperspectral datasets demonstrated that the enhanced 3D inception network can perform well with limited training samples. Moreover, the combinations of different dimensional convolutions in the 3D-2D and 3D-2D-1D inception networks achieved comparable classification results. According to the experimental findings, the suggested networks are generalised classification models with high classification rates.

Topics & Concepts

Hyperspectral imagingComputer scienceRemote sensingArtificial intelligenceContextual image classificationPattern recognition (psychology)Computer visionImage (mathematics)GeologyRemote-Sensing Image ClassificationRemote Sensing and Land UseRemote Sensing in Agriculture