Abstract
Using satellite remote sensing has become a mainstream approach for extracting crop spatial distribution. Making edges finer is a challenge, while simultaneously extracting crop spatial distribution information from high-resolution remote sensing images using a convolutional neural network (CNN). Based on the characteristics of the crop area in the Gaofen 2 (GF-2) images, this paper proposes an improved CNN to extract fine crop areas. The CNN comprises a feature extractor and a classifier. The feature extractor employs a spectral feature extraction unit to generate spectral features, and five coding-decoding-pair units to generate five level features. A linear model is used to fuse features of different levels, and the fusion results are up-sampled to obtain a feature map consistent with the structure of the input image. This feature map is used by the classifier to perform pixel-by-pixel classification. In this study, the SegNet and RefineNet models and 21 GF-2 images of Feicheng County, Shandong Province, China, were chosen for comparison experiment. Our approach had an accuracy of 93.26%, which is higher than those of the existing SegNet (78.12%) and RefineNet (86.54%) models. This demonstrates the superiority of the proposed method in extracting crop spatial distribution information from GF-2 remote sensing images.
Highlights
The availability of timely and accurate crop spatial distribution information for large areas is very important for scientific research and agricultural management [1,2]
As the working principles of SegNet and RefineNet are similar to that of the crop extraction model (CEM) model, we employed these as comparison models to better reflect the superiority of feature extraction and classification of our model
We proposed a new approach for extracting fine crop spatial distribution information
Summary
The availability of timely and accurate crop spatial distribution information for large areas is very important for scientific research and agricultural management [1,2]. This information has been obtained through large-scale field surveys. This method yields high-precision results, it is time-consuming and labor-intensive [3,4]. The pixel-by-pixel classification of remote sensing images is an effective approach to obtain crop spatial distribution information for large areas [5,6]. The technique for extraction of more effective pixel features from remote sensing images is key for improving the accuracy of pixel-based classification [7,8,9]
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