本产品利用中国静止轨道风云系列气象卫星(FY-2和FY-4)的地表温度产品,融合了风云卫星东星和西星的不同观测角度,充分发挥对我国及周边区域大范围全天候(每天24小时)多频次观测的优势,利用近10年近十多年的卫星遥感数据(2013年-至今)对干旱情况进行了长时间序列的监测、分析和模型修正。
This product utilizes surface temperature data from China's geostationary Fengyun series meteorological satellites (FY-2 and FY-4). It merges observations from the eastern and western satellites to enhance multi-angle coverage. The system offers extensive, all-weather monitoring across China and neighboring regions with frequent updates throughout the day (24/7). Leveraging over a decade of satellite remote sensing data (from 2013 to the present), this product conducts long-term monitoring, analysis, and model adjustments for drought conditions.
基于风云卫星红外波段的观测,通过能量平衡-诊断性的反演方法,推算地表干旱状态,实现高分辨全覆盖实时监测。产品不依赖地面站点观测,也无需任何降水信息,因此,在以下情况有着巨大优势:
地面观测网络稀疏区域 灌溉区域 地下水供给区域
Based on observations from the infrared bands of Fengyun satellites, this product applies an energy balance-based diagnostic inversion method to estimate surface drought conditions. This enables high-resolution, comprehensive real-time monitoring without relying on ground station data or precipitation information. The independence from ground-based observations provides significant advantages in the following scenarios:
Sparse observation networks: Remote or poorly monitored areas can still be accurately tracked. Irrigated regions: Conventional drought indicators based on precipitation may not reflect the actual moisture status, but this system can. Groundwater-dependent areas: The method captures surface dryness even when the primary water source is underground
All-Weather Precise Monitoring
空间覆盖度全年平均提高了229.78%
增强了台风等极端天气情况下,“骤干”,“旱涝急转”等特殊干旱事件的监测能力
FYDI-1.0 underwent comprehensive validation against ground station observations and meteorological drought indices. In testing across 2,343 valid ground stations over five years, it achieved a correlation coefficient of 0.7. After 18 months of evaluation and model refinement, real-time drought monitoring was deployed in challenging regions such as the Tibetan Plateau, the four southwestern provinces of China, and parts of South Asia, significantly improving accuracy and precision.
FYDI-2.0 builds upon these achievements by introducing a proprietary AI-based fusion algorithm. This version combines the strengths of thermal-infrared and microwave remote sensing to generate high-resolution, highly accurate drought monitoring products with all-weather capabilities. Compared to FYDI-1.0, FYDI-2.0 offers several key improvements:
229.78% increase in average annual spatial coverage Enhanced ability to detect sudden and extreme drought events, such as "flash droughts" and rapid shifts between drought and flood conditions during extreme weather events like typhoon
FYDI-2.0空间覆盖度显著提高
FYDI-2.0 significantly improves spatial coverage
FYDI-2.0在“海葵”台风过境时段的监测
FYDI-2.0's monitoring during the passage of Typhoon 'Haikui'
Early warning of drought conditions
本产品基于遥感卫星热红外波段反演的蒸散干旱指数,对地表缺水状态反应更为敏感,相对于可见光波段的监测方法,能提前7-14天探测到干旱。
热红外波段检测的信号:地表缺水的初始阶段,植被开始收缩气孔,减少蒸腾的时候
基于植被健康的干旱指数探测的信号:当植被缺水累计达到一定时间,开始枯萎变黄的时候
Thermal-infrared detection captures early signs of drought, such as plants closing their stomata to reduce transpiration when surface moisture is initially limited.
Vegetation-based drought indices, by contrast, only detect drought conditions once vegetation shows visible stress, like wilting or yellowing, which occurs after prolonged water deficits.
4、产品自主可控
基于国产风云卫星数据
核心技术已获得两项技术专利
业务系统获得计算机软件著作权认证
实现了自主可控、高效业务化运行
Use of domestic Fengyun satellite data
Core technologies protected by two patents
Certified with software copyright registration
Autonomous and efficient operationalization
不同干旱产品算法的优缺点比较
Comparison of Drought Algorithms
System Architecture
慧天卓特干旱监测与预测系统,采用Spring Cloud 技术生态相关的框架和工具栈,实现基于风云卫星遥感的实时在线干旱监测和预测,监测的结果可通过PC 浏览器或微信公众号实时浏览访问,干旱产品也可通过FTP、SFTP 等方式提供。
Monitoring results can be accessed in real-time through PC browsers or WeChat public accounts. Additionally, drought data products are made available through FTP or SFTP protocols, providing flexible delivery options to meet various user needs.
干旱监测平台
慧天干旱监测与预警-首页https://www.htdrought.com/
