DBMF: A Novel Method for Tree Species Fusion Classification Based on Multi-Source Images

Multi-source data remote sensing provides innovative technical support for tree species recognition. Tree species recognition is relatively poor despite noteworthy advancements in image fusion methods because the features from multi-source data for each pixel in the same region cannot be deeply expl...

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Veröffentlicht in:	Forests 2022-01, Vol.13 (1), p.33
Hauptverfasser:	Wang, Xueliang, Ren, Honge
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Sprache:	eng
Schlagworte:	Accuracy Algorithms Artificial neural networks Branches Classification Computer vision Deep learning Design Feature extraction Hyperspectral imaging Image classification Image processing Long short-term memory Machine learning Neural networks Object recognition Pixels Plant species Rainforests Remote sensing Satellite imagery Satellites Species Species classification Spectra Technical services Unmanned aerial vehicles
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description	Multi-source data remote sensing provides innovative technical support for tree species recognition. Tree species recognition is relatively poor despite noteworthy advancements in image fusion methods because the features from multi-source data for each pixel in the same region cannot be deeply exploited. In the present paper, a novel deep learning approach for hyperspectral imagery is proposed to improve accuracy for the classification of tree species. The proposed method, named the double branch multi-source fusion (DBMF) method, could more deeply determine the relationship between multi-source data and provide more effective information. The DBMF method does this by fusing spectral features extracted from a hyperspectral image (HSI) captured by the HJ-1A satellite and spatial features extracted from a multispectral image (MSI) captured by the Sentinel-2 satellite. The network has two branches in the spatial branch to avoid the risk of information loss, of which, sandglass blocks are embedded into a convolutional neural network (CNN) to extract the corresponding spatial neighborhood features from the MSI. Simultaneously, to make the useful spectral feature transfer more effective in the spectral branch, we employed bidirectional long short-term memory (Bi-LSTM) with a triple attention mechanism to extract the spectral features of each pixel in the HSI with low resolution. The feature information is fused to classify the tree species after the addition of a fusion activation function, which could allow the network to obtain more interactive information. Finally, the fusion strategy allows for the prediction of the full classification map of three study areas. Experimental results on a multi-source dataset show that DBMF has a significant advantage over other state-of-the-art frameworks.
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subjects	Accuracy Algorithms Artificial neural networks Branches Classification Computer vision Deep learning Design Feature extraction Hyperspectral imaging Image classification Image processing Long short-term memory Machine learning Neural networks Object recognition Pixels Plant species Rainforests Remote sensing Satellite imagery Satellites Species Species classification Spectra Technical services Unmanned aerial vehicles
title	DBMF: A Novel Method for Tree Species Fusion Classification Based on Multi-Source Images
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