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1.
全极化数据可以获取比单极化数据更多的目标信息,研究发现C波段交叉极化数据同样可用于海面风速反演。针对RADARSAT-2 Fine Quad模式具有全极化成像的特点,以我国东部海域为研究区,结合同极化数据和交叉极化数据反演海面风速模型,探究各种极化数据的最优风速反演方法。对于同极化数据采用地球物理模型函数(GMF)和极化率模型(PR)组合的方式进行海面风速反演,对交叉极化数据采用C波段交叉极化海面散射模型(C-2PO)进行海面风速反演,反演结果与ERA-Interim风场数据进行比较分析;此外,对Scan SAR模式交叉极化数据的后向散射系数与海面风速的关系进行探索分析。研究结果表明,RADARSAT-2 Fine Quad模式四种极化数据选用合适的模型均可反演出高精度的海面风速,其中VH和HV极化数据的反演结果基本相同,交叉极化数据反演风速效果好于同极化数据,同时,Scan SAR模式交叉极化数据的后向散射系数随海面风速的增大表现出一定的线性变化趋势。全极化模式数据在海面风速反演上表现出比单极化模式数据较为明显的优势,将成为未来海面风速反演的发展方向。 相似文献
2.
海洋表面温度SST(Sea Surface Temperature)是全球海洋和气候研究的重要参数之一,卫星被动微波遥感由于能够实现全天候观测而被越来越多的应用到SST研究中。中国的风云三号(FY 3)卫星搭载的微波成像仪(MWRI)缺少对SST更加敏感的7 GHz附近垂直极化通道,本研究将FY 3 MWRI与具有6.9 GHz通道的Aqua AMSR 2进行时空匹配,采用神经网络方法,利用匹配的FY 3 MWRI的通道亮温模拟仿真AMSR 2的69 GHz垂直极化通道亮温(6.9V),通过引入仿真的6.9V来提高FY 3 MWRI SST的反演精度。结果表明:引入仿真的6.9V可以改进FY 3 MWRI SST反演精度,对35°~90°S之间海域的SST改进更加显著,主要由于6.9V对低SST的探测灵敏度更高且在低SST反演时受风速的影响较小导致的。如果FY3后续卫星可以搭载6.9 GHz通道,将可进一步提升低SST特别是两极SST的反演精度。 相似文献
3.
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 between0.02 and 0.04 mm for 36.5-and 89.0-GHz channels. It is also shown that the brightness temperature observations at10.65 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. 相似文献
4.
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. 相似文献
5.
Mee-Ja Kim Mi-Lim Ou Eun-Ha Sohn Yoonjae Kim 《Asia-Pacific Journal of Atmospheric Sciences》2011,47(5):421-427
Multi-channel sea surface temperature (MCSST) data were retrieved from the Japanese geostationary satellite, MTSAT-1R, for East Asia in western North Pacific. The coefficients used to calculate the MCSST data were estimated by assuming a linear relationship between the brightness temperatures obtained from the satellite and the in-situ buoy SST. It is important to remove cloud contamination pixels to retrieve meaningful information from infrared data. Therefore, the cloud detection algorithm was improved by using a 10-day maximum or minimum composite map for infrared and visible channels. The RMSE of the MCSST in comparison with the two-year buoy SST was about 0.89oC. The error was the largest at mid-latitudes in summer. Additionally, the error between the two SSTs showed that diurnal variation had a positive bias during daytime and a negative bias during nighttime. Furthermore, in 2007, both SSTs showed seasonal and spatial diurnal variation. The magnitude of the daily variation in the MCSST was two times larger than that in the buoy SST, and this was attributed to diurnal heating with a weak surface wind speed. 相似文献
6.
利用2016年全年进出厦门机场和晋江机场航班的AMDAR(Aircraft Meteorological DAta Relay)数据对双雷达反演风场进行检验,分析了厦门、泉州双雷达风场反演的总体误差,研究结果表明:1)验证了双雷达连线附近区域反演风场的平均绝对误差较大,发现了与两部雷达连线的夹角小于15°和大于165°的区域的反演结果的平均绝对误差明显大于误差的年平均值。2)对于反演风向而言,误差随着高度增加而减小。对于反演风速而言,高度在9 km以下的反演误差在5 m/s左右,而9 km以上的反演误差较小。3)剔除了双雷达连线附近区域(与两部雷达连线的夹角小于15°和大于165°的区域)和反射率因子小于5 dBZ以及等于100 dBZ(剔除非气象回波)的反演结果后,双雷达反演风场误差较小,相对于AMDAR数据的风向年平均绝对误差为29.4°,风速年平均绝对误差为3.28 m/s,总体误差在可接受范围之内,反演结果接近"真值",该反演方法稳定可靠。 相似文献
7.
随着全球导航卫星系统的发展,一种基于导航卫星反射信号(GNSS-R)的海洋遥感技术成为近年来研究的热点。为研究GNSS-R测风方法,分析了海面风速与反射信号时延功率之间的关系,同时结合机器学习方法中的支持向量回归机方法,将反射信号时延功率作为训练标签,最终完成海面风速的反演。将"北斗反射信号海风海浪探测系统——山东示范站"项目期间海风海浪系统的探测结果与同期风速仪探测结果进行对比分析,结果表明,两者具有很好的一致性,海面风速的反演精度为2.4 m/s,证明了基于北斗反射信号的支持向量回归机海面测风方法是可行的。 相似文献
8.
文中首先分析了大气参数分布的垂直分辨率对模拟七通道微波温度探测器各通道亮温的影响,通过对比计算表明,大气参数的垂直分辨率对微波测温通道亮温计算的影响为0.2K~0.7K;随后分析了各通道亮温测量误差对温度廓线反演性能的影响,当测量误差在0.2K~2.0K范围内变化时,反演结果的总体均方根误差为2.1K~3.1K;同时还分析了单通道缺损、单通道发生漂移及所有通道发生漂移等情况对温度廓线反演性能的影响。当仪器缺损一个通道时,对所缺通道权重函数峰值附近高度上的大气温度反演有不同程度的影响,对其他高度上的大气温度反演的影响可忽略;单通道漂移0.5K时,对反演结果的影响较小;各通道整体漂移达到1.0K时,对温度廓线反演有明显影响;最后,考虑了云雾对微波测温通道亮温的影响,数值计算表明,雾层、浓霾和卷云对各通道亮温几乎没有影响,层云和积云对50.50GHz通道亮温有明显的影响。 相似文献
9.
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. 相似文献
10.
利用印度气象局(India Meteorological Department,IMD)、国际气候管理最佳路径档案库(International Best Track Archive for Climate Stewardship,IBTrACS)提供的1982—2020年阿拉伯海热带气旋路径资料,美国国家环境预报中心(National Centers for Environmental Prediction,NCEP)再分析资料,对近39 a阿拉伯海热带气旋源地和路径特征、活跃区域、频数及气旋累积能量(accumulated cyclone energy,ACE)指数的季节特征和年际变化特征进行分析,并结合环境因素,说明其物理成因。结果表明:阿拉伯海热带气旋多发于10°~25°N,65°~75°E海域,5—6月、9—12月发生频数较高且强度较强,1—4月、7—8月发生频数较低且气旋近中心最大风速均小于35 kn;频数的季节变化主要受控于垂直风切变要素;阿拉伯海热带气旋发生频数和ACE近年有上升趋势,年际变化主要受控于海面温度(sea surface temperature,SST)和850 hPa相对湿度要素。 相似文献
11.
云液态水路径是气候和天气系统分析的重要参数,可以从卫星观测资料反演获得.目前,基于卫星微波探测仪器观测资料的云水算法可由23.8和31.4 GHz两个通道产生.本研究使用先进技术微波探测仪(ATMS)观测数据,对物理和经验两种算法反演出的云液态水路径进行验证评估.结果表明,经验算法和物理算法都可以描述云液态水在全球洋面... 相似文献
12.
Eni G. Njoku 《Boundary-Layer Meteorology》1980,18(1):79-98
Procedures for correcting antenna temperature measurements and retrieving the true brightness temperatures are developed for the Scanning Multichannel Microwave Radiometer (SMMR) flown on the Seasat-A and Nimbus-G satellites. These procedures are necessary to meet the measurement accuracies required for deriving sea surface temperatures and wind speeds. It is shown that sidelobe contributions and polarization cross-coupling are major effects to be accounted for, in addition to some unique features of the SMMR instrument such as integration times and antenna scan characteristics. Methods are presented for data averaging and data reformatting, these are to be used with geophysical parameter retrieval algorithms. 相似文献
13.
以西班牙萨拉曼卡地区为研究区域,联合Sentinel-1后向散射系数和入射角信息、Sentinel-2光学数据提取的植被指数以及地面实测数据,构建了BP神经网络土壤湿度反演模型,并将该模型应用于试验区土壤湿度反演。结果表明:1)基于Sentinel-1卫星VV和VH极化雷达后向散射系数、雷达入射角和Sentinel-2植被指数数据构建的BP神经网络土壤湿度反演模型,能够实现对该地区土壤湿度高精度反演;2)在光学与微波数据联合反演植被覆盖区土壤湿度中,Sentinel-2的NDVI、NDWI1和NDWI2指数都可以用于削弱植被对土壤湿度反演的影响,但基于SWRI1波段的NDWI1能够获得更高精度的土壤湿度反演结果(RMSE为0.049 cm~3/cm~3,ubRMSE为0.048 cm~3/cm~3,Bias为0.008 cm~3/cm~3,r为0.681);3)相比于Sentinel-1 VH极化模式,Sentinel-1 VV极化模式在土壤湿度中表现出更大优势,说明Sentinel-1 VV极化模式更适用于土壤湿度反演。 相似文献
14.
利用1979—2017年共39 a欧洲中期天气预报中心(ECMWF)海表面10 m风场资料,采用经验正交函数方法(EOF)、小波时频特征分析等方法分析了南海近海面风场变化特征及其对ENSO的响应。结果表明:南海近海面风场第一模态海表面平均风速呈减小趋势, 呈现年代际变化,且与ENSO相关,但相关性在1990年后趋于减小;第二模态中南海北部和南部平均风速呈减小趋势,中部增大;第三模态中南海中部海表面平均风速趋于减小,北部和南部增大,第二和第三模态均表现为年际变化,且均与ENSO显著相关,近年来ENSO与第三模态的相关性逐渐增强。春季南海表面平均风速从南到北逐渐增加;夏季在越南沿岸部分海域仍有一个风速极大值中心,从该海域向四周逐渐减小,整片海域风向均是西南风;秋季由南向北依次增加;冬季南海整片海域风速都较大,越南沿岸和我国东沙群岛海域存在两个极大值中心。 相似文献
15.
利用2013年1月—2014年12月山东近海的8个浮标站、海岛站和自动站资料与ASCAT近岸风速和风向进行对比,以分析ASCAT反演风场在山东沿海的适用性。研究发现:总体上看,ASCAT近岸风速与代表站实况风速正相关,ASCAT近岸风速在山东沿海误差较小,风向有明显的偏离。ASCAT近岸风在渤海、渤海海峡和黄海北部的适用性优于黄海中部。风力不同时,ASCAT近岸风速与实况偏差有明显差别,表现为当实况出现6级及以上的大风,ASCAT近岸风速小于实况;当实况出现6级以下的风,ASCAT近岸风速大于实况。就ASCAT风速偏差而言,6级以下的风速偏差小于6级及以上风。ASCAT近岸风向与实况偏差也有明显差别,当实况出现6级及以上的大风,ASCAT近岸风向与实况的偏离变小;当实况出现6级以下的风,ASCAT近岸风向与实况的偏离变大。因此,ASCAT近岸风速在山东沿海有较好的适用性,6级以下风更优;ASCAT近岸风向也有一定的适用性,6级及以上风向可用性比6级以下强。 相似文献
16.
Abstract Airborne measurements of mean wind velocity and turbulence in the atmospheric boundary layer under wintertime conditions of cold offshore advection suggest that at a height of 50 m the mean wind speed increases with offshore distance by roughly 20% over a horizontal scale of order 10 km. Similarly, the vertical gust velocity and turbulent kinetic energy decay on scales of order 3.5 km by factors of 1.5 and 3.2, respectively. The scale of cross‐shore variations in the vertical fluxes of heat and downwind momentum is also 10 km, and the momentum flux is found to be roughly constant to 300 m, whereas the heat flux decreases with height. The stability parameter, z/L (where z = 50 m and L is the local Monin‐Obukhov length), is generally small over land but may reach order one over the warm ocean. The magnitude and horizontal length scales associated with the offshore variations in wind speed and turbulence are reasonably consistent with model results for a simple roughness change, but a more sophisticated model is required to interpret the combined effects of surface roughness and heat flux contrasts between land and sea. Comparisons between aircraft and profile‐adjusted surface measurements of wind speed indicate that Doppler biases of 1–2 m s?1 in the aircraft data caused by surface motions must be accounted for. In addition, the wind direction measurements of the Minimet anemometer buoy deployed in CASP are found to be in error by 25 ± 5°, possibly due to a misalignment of the anemometer vane. The vertical fluxes of heat and momentum show reasonably good agreement with surface estimates based on the Minimet data. 相似文献
17.
气象探空火箭测风不确定度评估方法 总被引:2,自引:0,他引:2
本文在气象火箭测风反演数学模型基础上,通过误差分析理论和曲线拟合最小二乘原理,对大气风场反演结果不确定度的评估方法进行了研究。根据火箭探空仪在空中的运动规律,首先建立数学反演模型,推导得到风速和风向的计算公式;然后根据误差理论,推导得出反演风速和风向的不确定度表达式;基于多项式拟合方法,进一步推导得出拟合后的风速和风向的系统误差和随机误差公式,并求解公式中系数。最后以1次气象火箭实测数据为例,对风场及其不确定度进行了分析计算。结果表明:风速反演不确定度随高度降低而减小,在50~60km高度不确定度约为2.8~3.5m/s,50km以下不确定度在1m/s以内;风向在正北方向(0°)附近摆动时,会导致反演不确定度异常增大,其他高度不确定度基本在10°以内。 相似文献
18.
利用WRF模式分别对沿海及山地条件下风电场风速进行高分辨数值模拟,并对其误差特征进行分析,结果表明:1)WRF模式对复杂地形条件下的风速模拟性能良好,模拟值较好地体现天气尺度的周期变化;2)沿海及山地条件下模拟与观测的误差特征各不相同。模式静态数据未能显现沿海的小岛,并且低估了山地测风塔所在的海拔,导致沿海平均模拟风速偏大,山地平均模拟风速偏小;3)分析不同风向的归一化均方根误差,沿海陆风情况下,下垫面相对复杂,误差明显增大;沿海海风情况下,下垫面均一,误差明显减小;4)仅作单个风电场周边数百平方千米的模拟,采用一台12核的服务器进行WRF模式的并行计算可满足48 h短期预测的时效性。仅仅提高模拟的网格分辨率,并不一定能提升模拟的准确性。 相似文献
19.
Diurnal variation of surface wind over central eastern China 总被引:7,自引:0,他引:7
Hourly wind observations from 452 meteorological stations are used to document the diurnal cycle of the surface wind over the central eastern China (100°–122°E, 20°–42.5°N). Both the surface wind speed and the wind direction show large diurnal variation with pronounced topographic effects. At most stations, the surface wind speed reaches the maximum in the afternoon and the minimum in early-morning. This diurnal phase shows small seasonal variation, whereas the diurnal amplitude varies significantly in different seasons. The diurnal amplitude of the surface wind speed reaches maximum in spring over the northern and southwestern China and in summer over the southern China. The diurnal cycle of the wind direction is more complicated. Over the coastal (mountain) regions, the diurnal wind direction is greatly influenced by the land–sea (mountain–valley) breezes with large (small) seasonal variation. Over the northern plain region, the wind direction exhibits small diurnal variation but with remarkable seasonal rotation. The surface wind over the stations located on the top of mountains shows distinct diurnal variation, which represents the diurnal cycle of the tropospheric low-level wind. The wind speed over these stations is highest in pre-dawn and lowest in the afternoon. The wind anomaly rotates clockwise from late night to late afternoon, and shows significant seasonal variation as influenced by the annual cycle of the monsoon system. The contribution of the diurnal surface wind to the diurnal feature of precipitation is briefly discussed. 相似文献
20.
Evaluation of the Community Microwave Emission Model Coupled with
the Community Land Model over East Asia 
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下载免费PDF全文 The Community Microwave Emission Model (CMEM) developed by the European Centre for Me-dium-Range Weather Forecasts (ECMWF) can provide a link between surface states and satellite observations and simulate the passive microwave brightness temperature of the surface at low frequencies (from 1 GHz to 20 GHz).This study evaluated the performance of the CMEM cou-pled with the Community Land Model (CLM) (CMEM-CLM) using C-band (6.9 GHz) microwave brightness temperatures from the Advanced Microwave Scanning Radiometer on Earth Observing System (AMSR-E) over East Asia.Preliminary results support the argument that the simulated brightness temperatures of CMEM-CLM from July 2005 to June 2010 are comparable to AMSR-E observational data.CMEM-CLM performed better for vertical polarization,for which the root mean square error was approximately 15 K,compared to over 30 K for horizontal polarization.An evaluation performed over seven sub-regions in China indicated that CMEM-CLM was able to capture the temporal evolution of C-band brightness temperatures well,and the best correlation with AMSR-E appeared over western Northwest China (over 0.9 for vertical polarization).However,larger biases were found over southern North China and the middle and lower reaches of the Yangtze River. 相似文献