摘要
目的方法利用全球海-气综合数据集(ICOADS),对FY-3C MWRI海面温度产品按照升降轨进行检验,并对不同风速及太阳辐射(白天、夜晚)条件下的检验结果进行分析。结果FY-3C MWRI SST产品升轨绝对误差为0.950 K,均方根误差为1.278 K;降轨绝对误差为1.186 K,均方根误差为1.692 K,升轨精度优于降轨精度。分别对风速小于6 m/s、6~12 m/s以及大于12 m/s时的绝对误差、均方根误差进行分析,高风速(>12 m/s)以及白天低风速(0~6 m/s)条件下,均会导致卫星反演海温与实测海温之间差异的增加。结论该研究结果对改进算法模型,提高产品的质量和可信度有重要的参考价值。
FY-3C MWRI sea surface temperature products are tested according to the lifting orbit,using the International Comprehensive Ocean-Atmosphere Data Set(ICOADS),and the inspected results of different wind speeds and of different solar radiation(day and night)are analyzed.The results show that the absolute error of ascending orbit for FY-3C MWRI SST product is 0.950 K,the root mean square error is 1.278 K,the absolute error of descending track is 1.186 K,the root mean square error is 1.692 K,indicating that the precision of ascending orbit is better than that of descending orbit;The absolute error and root mean square error are analyzed against the wind speed being less than 6 m/s,6~12 m/s and greater than 12m/s.Results show that the discrepancy between satellite estimated SST and measured SST will increase under the conditions of high wind speed(>12 m/s)and low wind speed(0~6 m/s)in the day time.This research is of great significance for improving the algorithm model and the quality and credibility of products.
作者
张春华
李松
刘洪伟
李冰
宋晶晶
ZHANG Chun-hua;LI Song;LIU Hong-wei;LI Bing;SONG Jing-jing(Unit 61741,Beijing 100094,China;Unit 91977,Beijing 100081 China;Unit 32029,Beijing 100091 China)
出处
《装备环境工程》
CAS
2021年第8期115-123,共9页
Equipment Environmental Engineering
关键词
风云三号
微波成像仪
海面温度
检验
Fengyun 3
microwave imaging instrument
sea surface temperature
inspection
