期刊
REMOTE SENSING
卷 13, 期 3, 页码 -出版社
MDPI
DOI: 10.3390/rs13030477
关键词
area of interest; urban land use; sample collection; building scale; random forest
类别
资金
- National Key Research and Development Program of China [2016YFA0600103]
- Delos Living LLC
- Cyrus Tang Foundation
This study utilized an area of interest (AOI)-based mapping approach to create an urban land use map in Beijing, achieving high classification accuracy and overall accuracy. The method offers a fast and accurate way for geographic sample collection, significantly reducing fieldwork and improving classification accuracy compared to previous methods, providing valuable support for urban planning and environmental policymaking.
Urban land use mapping is critical to understanding human activities in space. The first national mapping result of essential urban land use categories of China (EULUC-China) was released in 2019. However, the overall accuracies in some of the plain cities such as Beijing, Chengdu, and Zhengzhou were lower than 50% because many parcel-based mapping units are large with mixed land uses. To address this shortcoming, we proposed an area of interest (AOI)-based mapping approach, choosing Beijing as our study area. The mapping process includes two major steps. First, grids with different sizes (i.e., 300 m, 200 m, and 100 m) were derived from original land parcels to obtain classification units with a suitable size. Then, features within these grids were extracted from Sentinel-2 spectral data, point of interest (POI), and Tencent Easygo crowdedness data. These features were classified using a random forest (RF) classifier with AOI data, resulting in a 10-category map of EULUC. Second, we superimposed the AOIs layer on classified units to do some rectification and offer more details at the building scale. The overall accuracy of the AOI layer reached 98%, and the overall accuracy of the mapping results reached 77%. This study provides a fast method for accurate geographic sample collection, which substantially reduces the amount of fieldwork for sample collection and improves the classification accuracy compared to previous EULUC mapping. The detailed urban land use map could offer more support for urban planning and environmental policymaking.
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