National-Standards- and Deep-Learning-Oriented Raster and Vector Benchmark Dataset (RVBD) for Land-Use/Land-Cover Mapping in the Yangtze River Basin

Zhang, Pengfei; Wu, Yijin; Li, Chang; Li, Renhua; Yao, He; Zhang, Yong; Zhang, Genlin; Li, Dehua

doi:10.3390/rs15153907

Remote Sensing

2023

DOI: 10.3390/rs15153907

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National-Standards- and Deep-Learning-Oriented Raster and Vector Benchmark Dataset (RVBD) for Land-Use/Land-Cover Mapping in the Yangtze River Basin

Pengfei Zhang

Yijin Wu

Chang Li

et al.

Abstract: A high-quality remote sensing interpretation dataset has become crucial for driving an intelligent model, i.e., deep learning (DL), to produce land-use/land-cover (LULC) products. The existing remote sensing datasets face the following issues: the current studies (1) lack object-oriented fine-grained information; (2) they cannot meet national standards; (3) they lack field surveys for labeling samples; and (4) they cannot serve for geographic engineering application directly. To address these gaps, the nationa… Show more

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Research on Runoff Management of Sponge Cities under Urban Expansion

Sun,

Wu,

Dong

et al. 2024

Water

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To integrate the sponge city concept into urban development, we propose an analytical approach for runoff volume control, considering urban expansion. Using Changchun City as a case study and historical land-use data, we simulated the prediction of Changchun City’s land-use structure for 2035 change with the GeoSOS-FLUS platform. We calculated storage volumes for Low Impact Development (LID) designs using 2019 and 2035 land surface data. The objective is an 80% runoff volume control rate by 2035. Through Monte Carlo simulation and sensitivity analysis, we assessed the impact of various land-use types on LID storage volume calculations. Findings show that industrial land significantly influences LID storage volumes. This highlights the need for precise surveys of industrial land properties and surface composition in sponge city planning for more accurate runoff volume control analysis in Changchun City. The results indicate that LID storage volumes based on current data may not meet long-term sponge city goals due to increased impervious surfaces and runoff coefficients during urbanization.

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Research on Runoff Management of Sponge Cities under Urban Expansion

Sun,

Wu,

Dong

et al. 2024

Water

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National-Standards- and Deep-Learning-Oriented Raster and Vector Benchmark Dataset (RVBD) for Land-Use/Land-Cover Mapping in the Yangtze River Basin

Cited by 1 publication

References 95 publications

Research on Runoff Management of Sponge Cities under Urban Expansion

Research on Runoff Management of Sponge Cities under Urban Expansion

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