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MODELING AND QUANTITATIVE RETRIEVAL OF FINITE FIELD FOR THE TROPICAL SEA SURFACE WIND SPEED OF THE FY-3B MICROWAVE IMAGER 被引量:3
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作者 安大伟 陆风 +1 位作者 窦芳丽 张鹏 《Journal of Tropical Meteorology》 SCIE 2015年第1期84-91,共8页
The purpose of this study is to select a suitable sea wind retrieval method for FY-3B(MWRI). Based on the traditional empirical model of retrieving sea surface wind speed, and in the case of small sample size of FY-3B... The purpose of this study is to select a suitable sea wind retrieval method for FY-3B(MWRI). Based on the traditional empirical model of retrieving sea surface wind speed, and in the case of small sample size of FY-3B satellite load regression analysis, this paper analyzes the channel differences between the FY-3B satellite microwave radiation imager(MWRI) and TMI onboard the TRMM. The paper also analyzes the influence of these differences on the channel in terms of receiving temperature, including channel frequency, sensitivity and scaling precision. Then, the limited range of new model coefficient regression analysis is determined(in which the channel range settings include the information and features of channel differences), the regression methods of the finite field are proposed, and the empirical model of wind speed retrieval applicable to MWRI is obtained, which achieves robust results. Compared to the TAO buoy data, the mean deviation of the new model is 0.4 m/s, and the standard deviation is 1.2 m/s. In addition,the schematic diagram of the tropical sea surface wind speed retrieval is provided. 展开更多
关键词 microwave radiometry tropical sea surface wind mwri FY-3B
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基于机器学习模型FY⁃3D MWRI海面风速反演
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作者 张云 韩天辉 +3 位作者 孟婉婷 杨树瑚 周绍辉 韩彦岭 《上海航天(中英文)》 CSCD 2024年第4期120-132,172,共14页
风云三号D星(FY-3D)微波成像仪(MWRI)L1级亮温数据可用于全球海面风速反演,本文讨论了在晴空区和云区使用多元线性统计回归模型和机器学习模型反演海面风速的情况,在晴空区将4 d测试集分别放入多元线性统计回归模型,采用随机森林(RF),... 风云三号D星(FY-3D)微波成像仪(MWRI)L1级亮温数据可用于全球海面风速反演,本文讨论了在晴空区和云区使用多元线性统计回归模型和机器学习模型反演海面风速的情况,在晴空区将4 d测试集分别放入多元线性统计回归模型,采用随机森林(RF),支持向量回归(SVR),卷积神经网络(CNN)和Stacking融合(SF)模型对海面风速进行反演,最优的均方根误差(RMSE)分别为1.56、1.31、1.24、1.29和1.27 m/s;在云区2 d测试集上的最优RMSE分别为2.12、1.98、1.87、1.89和1.89 m/s。为了进一步验证晴空区海面风速反演的可靠性,选取美国国家浮标数据中心(NDBC)实测的浮标风速对海面反演风速进行验证,CNN反演风速与NDBC实测风速的RMSE为0.74 m/s,决定系数(R^(2))为0.80;SF反演风速与NDBC实测风速的RMSE为0.85 m/s,R^(2)为0.74。结果证实了通过机器学习模型能够很好地完成FY-3D MWRI亮温反演全球海面风速的任务。 展开更多
关键词 风云三号D星(FY-3D) 微波成像仪(mwri) 海面风速反演 机器学习 Stacking融合(SF)模型
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MICROWAVE SENSOR DEVELOPMENT IN RECENT TWO YEARS IN CHINA
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作者 ZHANG Yunhua ZHANG Shengwei XU Ke JIANG Jingshan 《空间科学学报》 CAS CSCD 北大核心 2002年第z1期185-189,共5页
The development of microwave sensors in recent two years in China are in troduced with an emphasis on spaceborne sensors without the applications in cluded. The microwave sensors as the main payloads to be boarded on ... The development of microwave sensors in recent two years in China are in troduced with an emphasis on spaceborne sensors without the applications in cluded. The microwave sensors as the main payloads to be boarded on the future operational satellites, such as FY-3 meteorological satellites and HY-2 marine satellite are introduced with much in detail. Besides these, four new sensors are outlined, i.e. the imaging radar altimeter,synthetic aperture radiometer, and polarimetric radiometer. Two recently conducted flight experiment campaigns are also introduced with results shown. 展开更多
关键词 microwave Radiation imager (mwri) microwave ATMOSPHERIC Temperature Sounder (MWTS) imaging Radar Altimeter Synthetic APERTURE Radiometer Polarimetric RADIOMETER
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Liquid Water Path Retrieval Using the Lowest Frequency Channels of Fengyun-3C Microwave Radiation Imager(MWRI) 被引量:8
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作者 Fei TANG Xiaolei ZOU 《Journal of Meteorological Research》 SCIE CSCD 2017年第6期1109-1122,共14页
The Microwave Radiation Imager (MWRI) on board Chinese Fengyun-3 (FY-3) satellites provides measurements at 10.65, 18.7, 23.8, 36.5, and 89.0 GHz with both horizontal and vertical polarization channels. Brightness... The Microwave Radiation Imager (MWRI) on board Chinese Fengyun-3 (FY-3) satellites provides measurements at 10.65, 18.7, 23.8, 36.5, and 89.0 GHz with both horizontal and vertical polarization channels. Brightness temperature measurements of those channels with their central frequencies higher than 19 GHz from satellite-based microwave imager radiometers had traditionally been used to retrieve cloud liquid water path (LWP) over ocean. The results show that the lowest frequency channels are the most appropriate for retrieving LWP when its values are large. Therefore, a modified LWP retrieval algorithm is developed for retrieving LWP of different magnitudes involving not only the high frequency channels but also the lowest frequency channels of FY-3 MWRI. The theoretical estimates of the LWP retrieval errors are between 0.11 and 0.06 mm for 10.65- and 18.7-GHz channels and between 0.02 and 0.04 mm for 36.5- and 89.0-GHz channels. It is also shown that the brightness temperature observations at 10.65 GHz can be utilized to better retrieve the LWP greater than 3 mm in the eyewall region of Super Typhoon Neoguri (2014). The spiral structure of clouds within and around Typhoon Neoguri can be well captured by combining the LWP retrievals from different frequency channels. 展开更多
关键词 microwave remote sensing Fengyun-3C microwave Radiation imager (mwri liquid water path (LWP) retrieval
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A Multivariable Approach for Estimating Soil Moisture from Microwave Radiation Imager(MWRI) 被引量:4
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作者 Sibo ZHANG Fuzhong WENG Wei YAO 《Journal of Meteorological Research》 SCIE CSCD 2020年第4期732-747,共16页
Accurate measurements of soil moisture are beneficial to our understanding of hydrological processes in the earth system. A multivariable approach using the random forest(RF) machine learning technique is proposed to ... Accurate measurements of soil moisture are beneficial to our understanding of hydrological processes in the earth system. A multivariable approach using the random forest(RF) machine learning technique is proposed to estimate the soil moisture from Microwave Radiation Imager(MWRI) onboard Fengyun-3 C satellite. In this study, Soil Moisture Operational Products System(SMOPS) products disseminated from NOAA are used as a truth to train the algorithm with the input of MWRI brightness temperatures(TBs) at 10.65, 18.7, 23.8, 36.5, and 89.0 GHz, TB polarization ratios(PRs) at 10.65, 18.7, and 23.8 GHz, height in digital elevation model(DEM), and soil porosity. The retrieved soil moisture is also validated against the independent SMOPS data, and the correlation coefficient is about0.8 and mean bias is 0.002 m^3 m^-3 over the period from 1 August 2017 to 31 May 2019. Our retrieval of soil moisture also has a higher correlation with ECMWF ERA5 soil moisture data than the MWRI operational products. In the western part of China, the spatial distribution of MWRI soil moisture is much improved, compared to the MWRI operational products. 展开更多
关键词 soil moisture microwave Radiation imager(mwri) machine learning microwave remote sensing
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In-Orbit Calibration Uncertainty of the Microwave Radiation Imager on board Fengyun-3C
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作者 Xinxin XIE Wanting MENG +2 位作者 Jiakai HE Weimin YU Xue LI 《Journal of Meteorological Research》 SCIE CSCD 2021年第6期943-951,共9页
This study evaluates the in-orbit calibration uncertainty(CU)for the microwave radiation imager(MWRI)on board the Chinese polar-orbiting meteorological satellite Fengyun-3 C(FY-3 C).Uncertainty analysis of the MWRI pr... This study evaluates the in-orbit calibration uncertainty(CU)for the microwave radiation imager(MWRI)on board the Chinese polar-orbiting meteorological satellite Fengyun-3 C(FY-3 C).Uncertainty analysis of the MWRI provides a direct link to the calibration system of the sensor and quantifies the calibration confidence based on the prelaunch and postlaunch measurements.The unique design of the sensor makes the uncertainty in the calibration of the sensor highly correlate to the uncertainty in the brightness temperature(TB)measured at the hot view,while the cold view has negligible impacts on the calibration confidence.Lack of knowledge on the emission of the hot-load reflector hampers the MWRI calibration accuracy significantly in the descending passes of the orbits when the hotload reflector is heated nonuniformly by the solar illumination.Radiance contamination originating from the satellite and in-orbit environments could enter the primary reflector via the hot view and further impinge on the CU,especially at the 10.65-GHz channels where the main-beam width is much broader than that of higher-frequency channels.The monthly-mean CU is lower than 2 K at all channels,depending on the observed earth scenes and in-orbit environments,and the month-to-month variation of CU is also noticed for all channels.Due to the uncertainty in the emissive hot-load reflector,CU in the descending passes is generally larger than that in the ascending orbits.Moreover,up to 1-K CU difference between the ocean and land scenes is found for the 10.65-GHz channels,while this difference is less than 0.1 K at the 89-GHz channels. 展开更多
关键词 calibration uncertainty(CU) microwave radiation imager(mwri) Fengyun-3(FY-3)
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A Thorough Evaluation of the Passive Microwave Radiometer Measurements onboard Three Fengyun-3 Satellites 被引量:3
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作者 Xinran XIA Wenying HE +4 位作者 Shengli WU Disong FU Wei SHAO Peng ZHANG Xiangao XIA 《Journal of Meteorological Research》 SCIE CSCD 2023年第4期573-588,共16页
Microwave Radiometer Imager(MWRI) is a key payload of China’s second generation polar meteorological satellite, i.e., Fengyun-3 series(FY-3). Up to now, 5 satellites including FY-3A(2008), FY-3B(2010), FY-3C(2013), F... Microwave Radiometer Imager(MWRI) is a key payload of China’s second generation polar meteorological satellite, i.e., Fengyun-3 series(FY-3). Up to now, 5 satellites including FY-3A(2008), FY-3B(2010), FY-3C(2013), FY-3D(2018), and FY-3E(2021) have been launched successfully to provide multiwavelength, all-weather, and global data for decades. Much progress has been made on the calibration of MWRI and a recalibrated MWRI brightness temperature(BT) product(V2) was recently released. This study thoroughly evaluates the accuracy of this new product from FY-3B, 3C, and 3D by using the simultaneous collocated Global Precipitation Measurement(GPM)Microwave Imager(GMI) measurements as a reference. The results show that the mean biases(MBEs) of the BT between MWRI and GMI are generally less than 0.5 K and the root mean squares(RMSs) between them are less than1.5 K. The previous notable ascending and descending difference of the MWRI has disappeared. This indicates that the new MWRI recalibration procedure is very effective in removing potential errors associated with the emission of the hot-load reflector. Analysis of the dependence of MBE on the latitude and earth scene temperature shows that MBE decreases with decreasing latitude over ocean. Furthermore, MBE over ocean decreases linearly with increasing scene temperature for almost all channels, whereas this does not occur over land. A linear regression fitting is then used to modify MWRI, which can reduce the MBE over ocean to be within 0.2 K. The standard deviation of error of GMI, FY-3B, and FY-3D MWRI BT data derived by using the three-cornered hat method(TCH) shows that GMI has the best overall performance over ocean except at 10.65 GHz where its standard deviation of error is slightly larger than that of FY-3D. Over land, the standard deviation of error of FY-3D is the lowest at almost all channels except at 89V. MWRI onboard FY-3 series satellites would serve as an important passive microwave radiometer member of the constellation to monitor key surface and atmospheric properties. 展开更多
关键词 microwave Radiometer imager(mwri) Global Precipitation Measurement(GPM)microwave imager(GMI) brightness temperature(BT) the three-cornered hat method(TCH)
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风云三号微波成像仪定标精度评价及业务产品介绍 被引量:23
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作者 杨虎 李小青 +1 位作者 游然 武胜利 《气象科技进展》 2013年第4期136-143,共8页
风云三号卫星(FY-3)为极轨系列卫星,目前为止分别于2008年5月和2010年10月发射了上午轨道(A)和下午轨道(B)两颗卫星。微波成像仪(MicroWave Radiometer Imager,MWRI)是装载于FY-3上的重要遥感仪器。该仪器为10通道双极化微波成像仪器,... 风云三号卫星(FY-3)为极轨系列卫星,目前为止分别于2008年5月和2010年10月发射了上午轨道(A)和下午轨道(B)两颗卫星。微波成像仪(MicroWave Radiometer Imager,MWRI)是装载于FY-3上的重要遥感仪器。该仪器为10通道双极化微波成像仪器,中心观测频率设置为10.65,18.7,23.8,36.5和89.0GHz,每个频点有垂直(V)和水平(H)两个探测通道。获取的对地观测亮温数据可用于定量获取大气降水、水汽、海面风速、海温、海冰分布、土壤湿度和陆表温度等地球物理参数信息。目前微波成像仪运行状态稳定,每天获取两次全球覆盖数据。主要介绍微波成像仪定标状况和主要业务产品算法。 展开更多
关键词 风云三号卫星 微波成像仪 定标
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基于FY-3C星微波成像仪毫米波通道的海面大风算法研究 被引量:2
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作者 安大伟 窦芳丽 张鹏 《上海航天》 CSCD 2017年第4期38-42,共5页
对基于FY-3C星微波成像仪(MWRI)毫米波通道的海面大风算法进行了研究。根据在中国海域观测到的海面后向热辐射数据,认为联合多个毫米波通道分析方法可利于海面大风反演。对中低风速(0~15m/s)下D-矩阵算法进行修正,给出了适于MWRI的海面... 对基于FY-3C星微波成像仪(MWRI)毫米波通道的海面大风算法进行了研究。根据在中国海域观测到的海面后向热辐射数据,认为联合多个毫米波通道分析方法可利于海面大风反演。对中低风速(0~15m/s)下D-矩阵算法进行修正,给出了适于MWRI的海面风速反演新模型。与浮标数据拟合结果表明:FY-3B,C星MWRI均方差(RMS)分别为1.24,1.18m/s。用带泡沫散射层的双尺度随机粗糙面的复合模型计算后向热发射。考虑各通道频率、灵敏度和定标精度等因素,用回归分析法分析了各通道热辐射特性随海面风速变化的不同响应特性,建立了适于FY-3C星MWRI的大风风速反演模型。中低风速模型和大风速模型反演的全球海面风速分布结果表明:中低风速精度标准差1.2m/s;反演大风数据和海岛固定浮标数据有一致性,模型的实际应用效果较好,可为我国沿海的大风监测和预警提供保障。 展开更多
关键词 FY-3卫星 微波成像仪 海面大风 毫米波通道 反演 回归分析法 全球海面风速分布
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基于FY-3B/MWRI数据的青藏高原地区积雪深度反演 被引量:2
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作者 高凇 吴莹 钱博 《地球物理学进展》 CSCD 北大核心 2020年第2期399-405,共7页
以青藏高原地区(25°N-40°N,70°E-105°E)为研究区域,基于积雪深度与微波辐射计18.7 GHz水平极化通道和36.5 GHz水平极化通道的亮温差(Tb18H-Tb36H)具有良好的线性相关性,得出了适用于FY-3B/MWRI(Microwave Radiation... 以青藏高原地区(25°N-40°N,70°E-105°E)为研究区域,基于积雪深度与微波辐射计18.7 GHz水平极化通道和36.5 GHz水平极化通道的亮温差(Tb18H-Tb36H)具有良好的线性相关性,得出了适用于FY-3B/MWRI(Microwave Radiation Imager)亮温数据反演青藏高原地区雪深的新算法.利用FY-3B/MWRI一级亮温数据,通过新的半经验算法反演了青藏高原地区的积雪深度,进而运用AMSR2(the Advanced Microwave Scanning Radiometer 2)的二级雪深产品验证了反演结果.结果表明:针对青藏高原地区,新算法相对于全球积雪深度算法具有更小的平均相对误差以及更小的均方根误差,在该研究区域具有更好的适用性.今后可以结合该地区的地表类型分类,对积雪深度反演算法进行更加细致化的拟合,以期提高反演精度,为青藏高原地球物理参数的遥感反演提供支持. 展开更多
关键词 mwri(microwave Radiation imager) 积雪深度 青藏高原
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Impact of FY-3D MWRI Radiance Assimilation in GRAPES 4DVar on Forecasts of Typhoon Shanshan 被引量:4
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作者 Hongyi XIAO Wei HAN +3 位作者 Hao WANG Jincheng WANG Guiqing LIU Changshan XU 《Journal of Meteorological Research》 SCIE CSCD 2020年第4期836-850,共15页
In this study, Fengyun-3 D(FY-3 D) Micro Wave Radiation Imager(MWRI) radiance data were directly assimilated into the Global/Regional Assimilation and Pr Ediction System(GRAPES) four-dimensional variational(4 DVar) sy... In this study, Fengyun-3 D(FY-3 D) Micro Wave Radiation Imager(MWRI) radiance data were directly assimilated into the Global/Regional Assimilation and Pr Ediction System(GRAPES) four-dimensional variational(4 DVar) system. Quality control procedures were developed for MWRI applications by using algorithms from similar microwave instruments. Compared with the FY-3 C MWRI, the bias of FY-3 D MWRI observations did not show a clear node-dependent difference from the numerical weather prediction background simulation. A conventional bias correction approach can therefore be used to remove systematic biases before the assimilation of data. After assimilating the MWRI radiance data into GRAPES, the geopotential height and humidity analysis fields were improved relative to the control experiment. There was a positive impact on the location of the subtropical high, which led to improvements in forecasts of the track of Typhoon Shanshan. 展开更多
关键词 Fengyun-3D(FY-3D) microwave Radiation imager(mwri) Global/Regional Assimilation and Pr Ediction System(GRAPES) four-dimensional variational(4DVar) typhoon forecast
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FY-3C微波成像仪电视信号干扰识别和分析 被引量:7
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作者 周泽华 邹晓蕾 秦正坤 《遥感学报》 EI CSCD 北大核心 2017年第5期689-701,共13页
由于卫星微波成像仪频率的非保护性,微波成像仪资料受到相近频率的无线电信号干扰影响,主要干扰源于洋面反射的静止电视卫星信号。为提高微波成像仪资料的准确性,尤其是洋面资料的可用性,对电视卫星信号干扰的检测和特征分析尤为重要。... 由于卫星微波成像仪频率的非保护性,微波成像仪资料受到相近频率的无线电信号干扰影响,主要干扰源于洋面反射的静止电视卫星信号。为提高微波成像仪资料的准确性,尤其是洋面资料的可用性,对电视卫星信号干扰的检测和特征分析尤为重要。中国风云3号C星(FY-3C)上搭载了微波成像仪。本文使用标准化主成分分析法来识别FY-3C微波成像仪的电视卫星干扰信号,并分析电视卫星信号干扰的主要空间特征。研究表明,FY-3C微波成像仪中心频率为10.65 GHz和18.7 GHz的4个低频通道受到卫星信号干扰。10.65 GHz通道在欧洲海域英吉利海峡和地中海西部希腊沿岸地区受到电视卫星信号干扰,并且干扰信号位置和强度与FY-3C卫星和欧洲静止电视卫星相对空间位置有关;18.7 GHz通道主要受到美国电视卫星的干扰,在北美东、西沿岸海域都存在干扰信号。FY-3C微波成像仪在中国海域不受电信号干扰影响,主要因为中国静止电视卫星频率与微波成像仪各通道频率不一样。 展开更多
关键词 风云3号C星(FY-3C) 微波成像仪 海洋 电视信号干扰 识别
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HUT模型的改进及其雪深反演 被引量:1
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作者 武黎黎 李晓峰 +3 位作者 陈月庆 赵凯 郑兴明 张兴国 《武汉大学学报(信息科学版)》 EI CSCD 北大核心 2017年第7期904-910,共7页
基于风云-3B(FY-3B)卫星的微波成像仪(MWRI)数据对HUT模型(Helsinki university of technology snow emission model)进行验证,结果表明,无论是18.7GHz还是36.5GHz水平极化亮温,HUT模型模拟亮温都与MWRI亮温存在较大的偏差。因此,本文... 基于风云-3B(FY-3B)卫星的微波成像仪(MWRI)数据对HUT模型(Helsinki university of technology snow emission model)进行验证,结果表明,无论是18.7GHz还是36.5GHz水平极化亮温,HUT模型模拟亮温都与MWRI亮温存在较大的偏差。因此,本文对消光系数进行了本地化改进,得到了改进的HUT模型(IMPHUT模型)。IMPHUT模型在18.7GHz水平极化和36.5GHz水平极化时的模拟亮温偏差分别为-0.91K和-4.19K,较原始的HUT模型模拟精度(偏差分别为14.03K和-16.33K)有很大提高。最后,利用遗传算法进行雪深反演,基于IMPHUT模型的雪深反演(偏差为-6.79cm)优于HUT模型和Chang算法,反演与实测雪深具有较好的一致性。 展开更多
关键词 FY-3B 微波成像仪(mwri) 消光系数 雪深 被动微波(PM)
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一种基于雪粒径演化过程的积雪亮温模拟新方法 被引量:1
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作者 武黎黎 陈月庆 +2 位作者 朱明 李晓峰 赵凯 《遥感技术与应用》 CSCD 北大核心 2020年第3期606-614,共9页
本研究采用HUT模型、DMRT模型和MEMLS模型模拟积雪雪粒子与不同波段(18.7 GHz和36.5 GHz)微波相互作用(吸收和消光),并用于辐射传输模型。而雪粒径的获取一直是一个难点,本研究由Jordan91雪粒径演化模型演化得到雪粒径,并将其作为辐射... 本研究采用HUT模型、DMRT模型和MEMLS模型模拟积雪雪粒子与不同波段(18.7 GHz和36.5 GHz)微波相互作用(吸收和消光),并用于辐射传输模型。而雪粒径的获取一直是一个难点,本研究由Jordan91雪粒径演化模型演化得到雪粒径,并将其作为辐射传输模型的输入参数,基于像元内实测数据进行混合像元18.7和36.5 GHz水平极化亮温模拟。结果表明:采用HUT模型、DMRT模型和MEMLS模型的消光系数在18.7 GHz时模拟亮温的偏差分别为-3.6、-1.8和-0.7 K,在36.5 GHz时分别为4.0、10.4和14.4 K。对于18.7 GHz水平极化和36.5 GHz水平极化,基于有效雪粒径的亮温模拟与基于雪粒径演化过程的亮温模拟精度呈现出很好的线性关系。因此,基于雪粒径演化过程的方法是一种合适的获取辐射传输模型中雪粒径参数的方法。 展开更多
关键词 积雪粒子 散射特性 亮温模拟 微波成像仪(mwri)
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