基于3d-2d卷积神经网络和初始网络的高光谱数据光谱空间分类

IF 0.2 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS IADIS-International Journal on Computer Science and Information Systems Pub Date : 2021-11-01 DOI:10.33965/ijcsis_2021160203
Douglas Omwenga, Guohua Liu
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引用次数: 0

摘要

高光谱成像(HSI)分类是近年来遥感界关注的热点。然而,此类数据包含多维动态特征,使其难以精确识别。此外,它还涵盖了收集光谱带内的结构非线性亲和力和相关材料。为了系统地促进HSI分类,我们提出了一种HSI数据的光谱空间分类方法,使用3D-2D卷积神经网络和初始网络来提取和学习深度光谱空间特征向量。我们首先对整个HSI图像应用主成分分析(PCA)来降低原始空间维数。其次,利用二维CNN对空间高光谱输入特征的连续信息进行挖掘。此外,我们使用不依赖于任何预处理的三维CNN,有效地提取了深度光谱-空间融合特征。将学习到的频谱空间特征连接并馈送到初始网络层进行联合频谱空间学习。此外,我们使用softmax回归分类器学习并实现了正确的分类。最后,我们在博茨瓦纳(BT)和肯尼迪航天中心(KSC)两个高光谱遥感数据集(HSRSI)的不同训练集上评估了我们的模型的性能,并将实验结果与基于深度学习和最先进(SOTA)的分类方法进行了比较。实验结果表明,我们的模型与最先进的技术提供了具有竞争力的分类结果,表明了HSRSI分类的巨大潜力。
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SPECTRAL-SPATIAL CLASSIFICATION OF HYPERSPECTRAL DATA USING 3D-2D CONVOLUTIONAL NEURAL NETWORK AND INCEPTION NETWORK
Hyperspectral imaging (HSI) classification has recently become a field of interest in the remote sensing (RS) community. However, such data contain multidimensional dynamic features that make it difficult for precise identification. Also, it covers structurally nonlinear affinity within the gathered spectral bands and the related materials. To systematically facilitate the HSI categorization, we propose a spectral-spatial classification of HSI data using a 3D-2D convolutional neural network and inception network to extract and learn the in-depth spectral-spatial feature vectors. We first applied the principal component analysis (PCA) on the entire HSI image to reduce the original space dimensionality. Second, the exploitation of the spatial hyperspectral input features contiguous information by 2-D CNN. Besides, we used 3-D CNN without relying on any preprocessing to extract deep spectral-spatial fused features efficiently. The learned spectral-spatial characteristics are concatenated and fed to the inception network layer for joint spectral-spatial learning. Furthermore, we learned and achieved the correct classification with a softmax regression classifier. Finally, we evaluated our model performance on different training set sizes of two hyperspectral remote sensing data sets (HSRSI), namely Botswana (BT) and Kennedy Space Center (KSC), and compared the experimental results with deep learning-based and state-of-the-art (SOTA) classification methods. The experiment results show that our model provides competitive classification results with state-of-the-art techniques, demonstrating the considerable potential for HSRSI classification.
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IADIS-International Journal on Computer Science and Information Systems
IADIS-International Journal on Computer Science and Information Systems COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
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