A Coarse-to-Fine Semi-supervised Learning Method Based on Superpixel Graph and Breaking-tie Sampling for Hyperspectral Image Classification

At present, hyperspectral image classification (HSIC) technology based on deep learning has been widely explored. However, the time and labor cost of obtaining enough labeled samples are expensive. To obtain higher classification performance with a few number of labeled samples, a coarse-to-fine sem...

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Veröffentlicht in:	IEEE geoscience and remote sensing letters 2023-07, p.1-1
Hauptverfasser:	Zhao, Chunhui, Chen, Maoyang, Feng, Shou, Qin, Boao, Zhang, Lifu
Format:	Artikel
Sprache:	eng
Schlagworte:	breaking-ties (BT) criterion coarse-to-fine classification Convolution Convolutional neural networks Deep learning Feature extraction Geoscience and remote sensing hyperspectral image classification (HSIC) Hyperspectral images (HSIs) Hyperspectral imaging Kernel superpixel graph
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creator	Zhao, Chunhui Chen, Maoyang Feng, Shou Qin, Boao Zhang, Lifu
description	At present, hyperspectral image classification (HSIC) technology based on deep learning has been widely explored. However, the time and labor cost of obtaining enough labeled samples are expensive. To obtain higher classification performance with a few number of labeled samples, a coarse-to-fine semi-supervised classification learning (CFSSL) method is proposed in this letter. First of all, the CFSSL performs coarse-grained classification with a few number of labeled samples, and the breaking-ties (BT) criterion is introduced to sample the coarse-grained classification results to ensure that the samples with high confidence are selected to generate pseudo-labels. Then, the pseudo-labels and their corresponding unlabeled samples are sent to the feature extraction network for fine-grained classification, so as to obtain more advanced classification results. Finally, in the fine-grained classification stage, a multi-scale convolution kernel attention aggregation network ( A 2 -MCKN) is designed to simultaneously extract the spatial-spectral features of the image and ensure clear texture boundaries of ground objects. Experimental results on two public datasets show that the CFSSL can obtain better accuracy than other methods with a few number of labeled samples.
doi_str_mv	10.1109/LGRS.2023.3297110
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However, the time and labor cost of obtaining enough labeled samples are expensive. To obtain higher classification performance with a few number of labeled samples, a coarse-to-fine semi-supervised classification learning (CFSSL) method is proposed in this letter. First of all, the CFSSL performs coarse-grained classification with a few number of labeled samples, and the breaking-ties (BT) criterion is introduced to sample the coarse-grained classification results to ensure that the samples with high confidence are selected to generate pseudo-labels. Then, the pseudo-labels and their corresponding unlabeled samples are sent to the feature extraction network for fine-grained classification, so as to obtain more advanced classification results. 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However, the time and labor cost of obtaining enough labeled samples are expensive. To obtain higher classification performance with a few number of labeled samples, a coarse-to-fine semi-supervised classification learning (CFSSL) method is proposed in this letter. First of all, the CFSSL performs coarse-grained classification with a few number of labeled samples, and the breaking-ties (BT) criterion is introduced to sample the coarse-grained classification results to ensure that the samples with high confidence are selected to generate pseudo-labels. Then, the pseudo-labels and their corresponding unlabeled samples are sent to the feature extraction network for fine-grained classification, so as to obtain more advanced classification results. 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subjects	breaking-ties (BT) criterion coarse-to-fine classification Convolution Convolutional neural networks Deep learning Feature extraction Geoscience and remote sensing hyperspectral image classification (HSIC) Hyperspectral images (HSIs) Hyperspectral imaging Kernel superpixel graph
title	A Coarse-to-Fine Semi-supervised Learning Method Based on Superpixel Graph and Breaking-tie Sampling for Hyperspectral Image Classification
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