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引用次数: 0
摘要
卷积神经网络和图卷积神经网络是两种经典的深度学习模型,已被广泛应用于高光谱图像分类任务,并取得了显著成就。然而,基于图卷积神经网络的高光谱图像分类模型仅使用浅层光谱或空间特征,不足以为构建图结构提供可靠的相似性度量,限制了其分类性能。为解决这一问题,我们提出了一种新的端到端高光谱图像分类模型,该模型结合了 3D-2D 混合卷积和图注意机制(3D-2D-GAT)。该模型利用混合卷积特征提取模块和 GAT 模块的协同工作来提高分类精度。首先,构建一个 3D-2D 混合卷积网络,用于快速提取高光谱图像中各种地面物体的判别深度空间-光谱特征。然后,基于深度空间光谱特征构建图,以增强特征表示能力。最后,采用图注意机制网络学习长程空间关系,区分不同样本的类内变化和类间相似性。在印第安松树、帕维亚大学和萨利纳斯谷三个数据集上的实验结果表明,与其他先进方法相比,所提出的方法可以达到更高的分类精度。
Hyperspectral Image Classification Based on 3D–2D Hybrid Convolution and Graph Attention Mechanism
Convolutional neural networks and graph convolutional neural networks are two classical deep learning models that have been widely used in hyperspectral image classification tasks with remarkable achievements. However, hyperspectral image classification models based on graph convolutional neural networks using only shallow spectral or spatial features are insufficient to provide reliable similarity measures for constructing graph structures, limiting their classification performance. To address this problem, we propose a new end-to-end hyperspectral image classification model combining 3D–2D hybrid convolution and a graph attention mechanism (3D–2D-GAT). The model utilizes the collaborative work of hybrid convolutional feature extraction module and GAT module to improve classification accuracy. First, a 3D–2D hybrid convolutional network is constructed and used to quickly extract the discriminant deep spatial-spectral features of various ground objects in hyperspectral image. Then, the graph is built based on deep spatial-spectral features to enhance the feature representation ability. Finally, a network of graph attention mechanism is adopted to learn long-range spatial relationship and distinguish the intra-class variation and inter-class similarity among different samples. The experimental results on three datasets, Indian Pine, the University of Pavia and Salinas Valley show that the proposed method can achieve higher classification accuracy compared with other advanced methods.
期刊介绍:
Neural Processing Letters is an international journal publishing research results and innovative ideas on all aspects of artificial neural networks. Coverage includes theoretical developments, biological models, new formal modes, learning, applications, software and hardware developments, and prospective researches.
The journal promotes fast exchange of information in the community of neural network researchers and users. The resurgence of interest in the field of artificial neural networks since the beginning of the 1980s is coupled to tremendous research activity in specialized or multidisciplinary groups. Research, however, is not possible without good communication between people and the exchange of information, especially in a field covering such different areas; fast communication is also a key aspect, and this is the reason for Neural Processing Letters
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