HY-1D COCTS海表温度反演与印证  

作　　者：刘铭坤 管磊[1,2,3] 刘凡莉 刘建强 LIU Mingkun;GUAN Lei;LIU Fanli;LIU Jianqiang(College of Marine Technology,Faculty of Information Science and Engineering,Ocean University of China,Qingdao 266100,China;Sarya Oceanographic Institution,Ocean University of China,Sanya 572024,China;Laboratory for Regional Oceanography and Numerical Modeling,Qingdao National Laboratory for Marine Science and Technology,Qingdao 266071,China;National Satellite Ocean Application Service,Ministry of Natural Resources of China,Beijing 100081,China;Key Laboratory of Space Ocean Remote Sensing and Application,Ministry of Natural Resources of China,Beijing 100081,China)

机构地区：[1]中国海洋大学信息科学与工程学部海洋技术学院,青岛266100 [2]中国海洋大学三亚海洋研究院,三亚572024 [3]青岛海洋科学与技术试点国家实验室区域海洋动力学与数值模拟功能实验室,青岛266071 [4]自然资源部国家卫星海洋应用中心,北京100081 [5]自然资源部空间海洋遥感与应用重点实验室,北京100081

出　　处：《遥感学报》2023年第4期953-964,共12页NATIONAL REMOTE SENSING BULLETIN

基　　金：国家自然科学基金(编号:42006161);海南省自然科学基金(编号:122CXTD519)。

摘　　要：海洋一号D (Haiyang-1D,HY-1D)卫星于2020年6月成功发射,与海洋一号C (Haiyang-1C,HY-1C)卫星形成上、下午卫星组网,是中国HY-1系列卫星在轨业务化运行的海洋遥感卫星。HY-1D卫星上搭载的海洋水色扫描仪COCTS (Chinese Ocean Color and Temperature Scanner)有两个热红外通道,波段范围分别为10.30—11.40μm和11.40—12.50μm,可用于海表温度SST (Sea Surface Temperature)观测。本文采用HY-1D COCTS热红外通道的观测亮温,基于大气辐射传输模拟计算,开展云检测和SST反演算法研究,对2021年1月西北太平洋海域的COCTS观测数据进行SST反演,并采用现场实测和同步卫星数据对反演得到的COCTS SST进行印证。COCTS与现场实测SST的比较结果表明,二者的平均偏差为-0.04℃,标准偏差为0.45℃。且COCTS与iQuam的SST偏差与SST以及大气水汽总量之间没有明显的依赖关系。COCTS与搭载在Suomi NPP卫星上的可见光红外成像辐射计VIIRS (Visible Infrared Imaging Radiometer Suite) SST产品的比较结果表明,二者的平均偏差为-0.05℃,标准偏差为0.49℃。基于以上算法得到的HY-1D COCTS西北太平洋海域的SST具有较高的精度,与国际海表温度产品达到了相当的水平。HY-1D was launched in June 2020 as the first operational generation of Chinese marine satellite constellation with the launched HY-1C satellite for networking in the morning and afternoon.The Chinese Ocean Color and Temperature Scanner(COCTS) has two thermal infrared channels(10.30—11.40 and 11.40—12.50 μm) for observing Sea Surface Temperature(SST).In this work,the Bayesian cloud detection and optimal estimation algorithm are utilized for HY-1D COCTS SST retrieval in the Northwest Pacific based on the atmospheric radiative transfer model.COCTS is a whiskbroom scanner with eight parallel detectors along-track.The different spectral responses of these eight parallel detectors caused the sharp striped noise across the scan lines.The de-striping is carried out based on the unidirectional variational model.De-striping can be viewed as an optimization problem based on the minimization of a unidirectional variational model because striping can be assumed to be unidirectional noise because it does not affect the image horizontal gradient.The solution of the Euler-Lagrange equation is obtained based on a Gauss-Seidel fixed-point iterative scheme.The de-striped analysis show that the de-striping algorithm is successfully utilized in the HY-1D COCTS radiance data.Based on the simulated brightness temperature using the moderate resolution atmospheric transmission model,a Bayesian approach is utilized for the cloud detection of COCTS infrared brightness temperatures.Bayesian cloud detection is based on Bayes' theorem,which determines a clear-sky probability given the satellite observations and prior background information.The COCTS brightness temperature images and the retrieved SST validation distributions show that the cloud detection is effective for SST retrieval.The optimal estimation algorithm is used for COCTS SST retrieval,based on the COCTS simulated brightness temperature and ERA5 SST as the prior SST.The HY-1D COCTS-retrieved SSTs are compared with the in situ SST and Visible Infrared Imaging Radiometer Suite

关 键 词：遥感 HY-1D COCTS 海表温度 云检测 反演 印证 

分 类 号：P2[天文地球—测绘科学与技术]