矢量化(数学)
比例(比率)
土地覆盖
遥感
图像分辨率
封面(代数)
分辨率(逻辑)
计算机科学
高分辨率
地质学
土地利用
地图学
人工智能
地理
土木工程
并行计算
工程类
机械工程
作者
Yu Meng,L. Deng,Zhihao Xi,Jiansheng Chen,Jingbo Chen,Anzhi Yue,Diyou Liu,Kai Li,Chenhao Wang,Kaiyu Li,Yupeng Deng,Xian Sun
标识
DOI:10.1109/tgrs.2025.3600249
摘要
With the enhancement of remote sensing image resolution and the rapid advancement of deep learning, land cover mapping is transitioning from pixel-level segmentation to object-based vector modeling. This shift demands more from deep learning models, requiring precise object boundaries and topological consistency. However, existing datasets face three main challenges: limited class annotations, small data scale, and lack of spatial structural information. To overcome these issues, we introduce IRSAMap, the first global remote sensing dataset for large-scale, high-resolution, multi-feature land cover vector mapping. IRSAMap offers four key advantages: 1) a comprehensive vector annotation system with over 1.8 million instances of 10 typical objects (e.g., buildings, roads, rivers), ensuring semantic and spatial accuracy; 2) an intelligent annotation workflow combining manual and AI-based methods to improve efficiency and consistency; 3) global coverage across 79 regions in six continents, totaling over 1,000 km; and 4) multi-task adaptability for tasks like pixel-level classification, building outline extraction, road centerline extraction, and panoramic segmentation. IRSAMap provides a standardized benchmark for the shift from pixel-based to object-based approaches, advancing geographic feature automation and collaborative modeling. It is valuable for global geographic information updates and digital twin construction. The dataset is publicly available at https://github.com/ucas-dlg/IRSAMap
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