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- [1] 王晓雅.国际湿地城市可持续发展历程与未来研究趋势.自然资源学报.2024,39 (6):1241-1261
- [2] A framework for fine classification of urban wetland based on random forest and knowledge rules: Tak.GIScience & Remote Sensing.2022,59 (1):2144-2163
- [3] Contribution of Land Cover Classification Results Based on Sentinel-1 and 2 to the Accreditation of .Remote Sensing.2023,15 (2):1275
- [4] Extreme hourly precipitation characteristics of Mainland China from 1980 to 2019 [J]. International .International Journal of Climatology.2023,43 (6):2989-3004
- [5] Analysis of the dynamic changes of the Baiyangdian Lake surface based on a complex water extraction .Water.2018,10 (11):1616
- [6] Using Remote Sensing to Monitor the Water Change of Xiong’an New Area.IGARSS 2019-2019 IEEE International Geoscience and Remote Sensing Symposium. IEEE.2019 :4415-4418
- [7] 基于多重现期的京津冀小时极端降雨特征分析及致灾因子危险性评估.地理研究.2020,39 (11):2581-2592
- [8] “山竹”台风影响地区的小时降雨动态变化及危险性动态评估.灾害学.2019,34 (03):202-208
- [9] 秦岭中部自然保护区植被生长状况遥感监测.自然保护地.2022,2 (02):48-59
- [10] 王晓雅.基于随机森林算法和知识规则的国际湿地城市精细湿地分类研究——以常德市为例.遥感学报.2023,27 (6):1426-1440