期刊论文详细信息
International Journal of Applied Earth Observations and Geoinformation
Large-scale crop type and crop area mapping across Brazil using synthetic aperture radar and optical imagery
Jeremiah Barr1  Olaniyi A. Ajadi2  Sang-Zi Liang2  Siva P. Kumpatla2  Rinkal Patel2  Rogerio Ferreira2  Anu Swatantran3 
[1] Corresponding author.;Corteva Agriscience™, 7000 NW 62nd Avenue, Johnston, IA 50131, United States;Granular, 8700 Crescent Chase, Johnston, IA 50131, United States;
关键词: Synthetic aperture radar;    SAR;    Machine learning;    Xgboost;    Crop classification;    Neural networks;   
DOI  :  
来源: DOAJ
【 摘 要 】

Improved data on crop type and crop area from satellite imagery are invaluable for agronomy managers and are crucial for balancing agricultural expansion and forest degradation. However, large-scale maps of crop type and crop area using satellite imagery are not easily available in some regions, especially Brazil. Reasons for this include limited ground truth data, inadequate spatial and temporal satellite data availability, computational challenges, lack of cropland data and field boundaries. In this paper, we attempted to overcome some of these obstacles by using an ensemble of approaches to generate crop classification maps for Brazil. In order to compensate for the lack of abundant ground truth data in Brazil, we combined extensive field data and satellite input features from the United States with available field data and satellite input features from Brazil to train crop classification model for Brazil. Before applying the crop classification model for Brazil, we classified cropland areas using harmonic functions and delineated field boundaries using a supervised deep learning approach. Cropland masking and field boundary delineation allowed field-level mapping of crop type and crop area. Applying the crop classification model for Brazil in the states of Mato Grosso and Goias gave a true positive accuracy of 88% in the 2017/2018 summer growing season for soybean classification, 95% in the 2018 safrinha growing season for corn classification, and 86% in the 2018/2019 summer growing season for soybean classification. Our crop area estimates also showed a good agreement (correlation of 0.95 and mean absolute error of 0.64) with state-scale statistical data provided by the Companhia Nacional de Abastecimento (CONAB) in both summer and safrinha growing seasons adding further confidence to the results. These results suggest that extensive data from one geography can be used to train machine learning models in conjunction with limited field data from another geography. Accuracy assessments support the portability of crop classification model for Brazil with reasonable accuracy spatially, as tested in the state of Parana, and temporally, to the following year. The approaches and datasets presented in this paper provide building blocks for large-scale crop monitoring benefitting both public and private sectors.

【 授权许可】

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