An object-based supervised classification framework for very-high-resolution remote sensing images using convolutional neural networks

Xiaodong Zhang; Qing Wang; Guanzhou Chen; Fan Dai; Kun Zhu; Yuanfu Gong; Yijuan Xie

doi:10.1080/2150704X.2017.1422873

An object-based supervised classification framework for very-high-resolution remote sensing images using convolutional neural networks

Xiaodong Zhang
, Qing Wang
, Guanzhou Chen
, Fan Dai
, Kun Zhu
, Yuanfu Gong
, Yijuan Xie

Wuhan University

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

Object-based image classification (OBIC) is presented to overcome the drawbacks of pixel-based image classification (PBIC) when very-high-resolution (VHR) imagery is classified. However, most of classification methods in OBIC are dealing with 1D hand-crafted features extracted from segmented image objects (superpixels). To extract 2D deep features of superpixels, a new deep OBIC framework is introduced in this letter by using convolutional neural networks (CNNs). We first analyze the different mask policies of superpixels and design two architectures of networks. Then, we determine the specific details of our framework before experiments. The results of comparison experiments show that our DiCNN-4 (Double-input CNN) model achieves higher overall accuracy, κ coefficient and F-measure than conventional OBIC methods on our image dataset.

Original language	English
Pages (from-to)	373-382
Number of pages	10
Journal	Remote Sensing Letters
Volume	9
Issue number	4
DOIs	https://doi.org/10.1080/2150704X.2017.1422873
State	Published - 3 Apr 2018
Externally published	Yes

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title = "An object-based supervised classification framework for very-high-resolution remote sensing images using convolutional neural networks",

abstract = "Object-based image classification (OBIC) is presented to overcome the drawbacks of pixel-based image classification (PBIC) when very-high-resolution (VHR) imagery is classified. However, most of classification methods in OBIC are dealing with 1D hand-crafted features extracted from segmented image objects (superpixels). To extract 2D deep features of superpixels, a new deep OBIC framework is introduced in this letter by using convolutional neural networks (CNNs). We first analyze the different mask policies of superpixels and design two architectures of networks. Then, we determine the specific details of our framework before experiments. The results of comparison experiments show that our DiCNN-4 (Double-input CNN) model achieves higher overall accuracy, κ coefficient and F-measure than conventional OBIC methods on our image dataset.",

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AU - Zhang, Xiaodong

AU - Wang, Qing

AU - Chen, Guanzhou

AU - Dai, Fan

AU - Zhu, Kun

AU - Gong, Yuanfu

AU - Xie, Yijuan

PY - 2018/4/3

Y1 - 2018/4/3

N2 - Object-based image classification (OBIC) is presented to overcome the drawbacks of pixel-based image classification (PBIC) when very-high-resolution (VHR) imagery is classified. However, most of classification methods in OBIC are dealing with 1D hand-crafted features extracted from segmented image objects (superpixels). To extract 2D deep features of superpixels, a new deep OBIC framework is introduced in this letter by using convolutional neural networks (CNNs). We first analyze the different mask policies of superpixels and design two architectures of networks. Then, we determine the specific details of our framework before experiments. The results of comparison experiments show that our DiCNN-4 (Double-input CNN) model achieves higher overall accuracy, κ coefficient and F-measure than conventional OBIC methods on our image dataset.

AB - Object-based image classification (OBIC) is presented to overcome the drawbacks of pixel-based image classification (PBIC) when very-high-resolution (VHR) imagery is classified. However, most of classification methods in OBIC are dealing with 1D hand-crafted features extracted from segmented image objects (superpixels). To extract 2D deep features of superpixels, a new deep OBIC framework is introduced in this letter by using convolutional neural networks (CNNs). We first analyze the different mask policies of superpixels and design two architectures of networks. Then, we determine the specific details of our framework before experiments. The results of comparison experiments show that our DiCNN-4 (Double-input CNN) model achieves higher overall accuracy, κ coefficient and F-measure than conventional OBIC methods on our image dataset.

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M3 - 文章

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ER -

An object-based supervised classification framework for very-high-resolution remote sensing images using convolutional neural networks

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