A Comparative Study of Different Convolution Neural Network Architectures for Hyperspectral Image Classification

2022 7th International Conference on Computing, Communication and Security (ICCCS) Pub Date : 2022-11-03 DOI:10.1109/ICCCS55188.2022.10079495

M. K. Singh, B. Kumar

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Abstract

In recent years, remote sensing and other applications have used hyperspectral image processing in a variety of ways. For more precise and in-depth information extraction, hyperspectral images offer a wealth of spectral information to recognize and discriminate spectrally identical materials. Numerous cutting-edge methods based on spectral and spatial data are available for hyperspectral image classification. Convolutional neural network (CNN), a subclass of artificial neural networks has gained popularity in a number of fields, including hyperspectral image classification. CNN is built to automatically and adaptively learn spatial hierarchies of data by backpropagation using a variety of building blocks, including convolution layers, pooling layers, and fully connected layers. In this paper, different CNN architectures such as IDCNN, 2D-CNN, 3D-CNN and 3D2D-CNN are evaluated to classify hyperspectral images. Experiments are performed on Indiana Pines and Pavia University images. Experimental results show that 3D2D-CNN gives highest classification accuracy.

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不同卷积神经网络结构在高光谱图像分类中的比较研究

近年来，遥感和其他应用已经以各种方式使用了高光谱图像处理。为了更精确和深入的信息提取，高光谱图像提供了丰富的光谱信息来识别和区分光谱相同的材料。基于光谱和空间数据的高光谱图像分类方法有很多。卷积神经网络(CNN)是人工神经网络的一个子类，在包括高光谱图像分类在内的许多领域都很受欢迎。CNN通过使用各种构建块，包括卷积层、池化层和全连接层，通过反向传播自动自适应地学习数据的空间层次。本文对IDCNN、2D-CNN、3D-CNN和3D2D-CNN等不同的CNN架构进行了评价，对高光谱图像进行分类。实验在印第安纳松树和帕维亚大学的图像上进行。实验结果表明，3D2D-CNN分类准确率最高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 7th International Conference on Computing, Communication and Security (ICCCS)

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