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1.
The radiance leaving the earth-atmosphere system which can be sensed by a satellite borne radiometer is the sum of radiation emission from the earth surface and each atmospheric level that are transmitted to the top of the atmosphere. The radiation emission from the earth surface and the radiance of each atmospheric level can be separated from the radiance at the top the atmospheric level measured by a satellite borne radiometer. However, it is very difficult to measure the atmospheric radiance, especially the synchronous measurement with the satellite. Thus some atmospheric radiative transfer models have been developed to provide many options for modeling atmospheric radiation transport, such as LOWTRAN, MODTRAN, 6S, FASCODE, LBLRTM, SHARC, and SAMM. Meanwhile, these models can support the detailed detector system design, the optimization and evaluation of satellite mission parameters, and the data processing procedures. As an example, the newly atmospheric radiative transfer models, MODTRAN will be compared with other models after the atmospheric radiative transfer is described. And the atmospheric radiative transfer simulation procedures and their applications to atmospheric transmittance, retrieval of atmospheric elements, and surface parameters, will also be presented. 相似文献
2.
Landsat-8卫星设计有2个热红外波段,但由于第11波段存在定标问题,无法用于定量研究,所以基于Landsat-8的地表温度反演算法目前仍以单通道为主。单通道算法反演地表温度需先已知地表比辐射率并完成大气校正的工作。在大气校正方面,现有的算法主要以传统方法为主,即通过大气辐射传输模型或经验-半经验公式的方式获取大气参数。但是,传统的经验-半经验的方法并不建立在物理机制上,其自身存在一定局限性;而大气辐射传输模型的方法虽然精度更高,但执行效率较低,不适用于业务化的产品生产。本文针对现有大气估算方法的不足,提出了一种基于Landsat-8单通道地表温度反演的大气参数快速估算方法。在水汽范围0~6 g/cm2内,大气参数快速估算方法的精度与MODTRAN精度相当,大气透过率RMSE为0.003;大气上行辐亮度RMSE为0.0004;大气下行辐亮度RMSE为0.0004。相较于传统的大气参数估算方法,本文提出的大气参数快速估算方法,不仅可以脱离大气辐射传输模型使用,而且具有与其相当的估算精度,执行效率更高,适用性更广。 相似文献
3.
光学遥感大气订正模型及其相关问题分析 总被引:4,自引:2,他引:2
首先说明了大气的影响作用和大气订正的必要性。接着总结了大气订正的基本问题:侧重分析了大气订正的模型和反演方法;还包括大气、气溶胶参数的反演;辐射传输软件用于大气订正函数的计算;邻近效应的处理;查找表的创建;大气订正的精度分析等。 相似文献
4.
通用劈窗算法的NOAA-18(N)AVHRR/3数据地表温度遥感反演与验证 总被引:1,自引:0,他引:1
本文以NOAA-18(N)AVHRR/3数据,运用通用劈窗技术获得地表温度。首先,利用MODTRAN 4模拟不同地表和大气状况下热红外通道(Ch4,10.3~11.3μm和Ch5,11.5~12.5μm)的星上亮温,并建立模拟数据库。其次,按照地表温度、大气可降水汽含量、地表比辐射率和观测天顶角,对模拟数据库分组,确定出各分组的通用劈窗算法系数。然后,将构建的地表温度反演模型应用到NOAA-18(N)AVHRR/3数据,模型所需的地表比辐射率由NDVI阈值法确定,大气可降水汽含量是利用Li等(2003)提出的一种劈窗的协方差与方差比的方法来估算。反演结果表明:在观测天顶角小于30°或者大气可降水汽含量小于3.5 g/cm2时,地表温度反演的均方根误差小于1.0K;在观测天顶角小于45°并且大气可降水汽含量小于5.5g/cm2情况下,均方根误差小于1.5K。最后,利用美国通量站的实测数据对地表温度反演结果进行了验证,结果表明均方根误差小于1.8K。 相似文献
5.
热红外地表方向性辐射温度与半球辐射温度关系研究 总被引:1,自引:0,他引:1
地表温度是陆面过程的一个重要影响因素,利用地表温度的遥感反演算法只能获取卫星传感器观测角度条件下的地表温度(即某个方向上的辐射温度),但地球表面普遍存在非同温像元,反演得到的像元地表辐射温度具有方向性特征。本文利用热红外辐射传输模型4 SAIL(Scattering by Arbitrarily Inclined Leaves),以及方向性热辐射参数化模型,针对非同温均匀冠层,考虑冠层结构、太阳位置和观测角等因素的影响,模拟得到方向性辐射温度数据,与半球辐射温度数据比较,得到估算半球辐射温度的最佳观测角度。此外,开展热红外地面观测试验,对热红外地表辐射温度的角度效应,以及利用模拟数据得到的半球辐射温度最佳观测角度进行了验证。结果表明,当太阳高度角较低时,均匀草地的地表辐射温度,会随着观测天顶角的增大而增加,受观测方位角的影响较小,当观测天顶角为75°时,倾斜观测与垂直观测得到的辐射温度差值达到2.7 K,说明热辐射存在明显的方向性特征。同时,将热红外地表方向性辐射温度与同步观测的半球辐射温度进行对比分析,当叶面积指数小于1.0时,半球辐射温度的最佳替代角度为51°,与模拟结果相符。 相似文献
6.
大气下行辐射简化计算及朗伯假设下大气下行辐射效应计算分析 总被引:1,自引:1,他引:0
地表温度反演及真实性检验必须考虑大气下行辐射效应,其简化计算通常假设地表为朗伯体以及大气下行辐射各向同性。本文从理论和方法上分析了大气下行辐射简化计算公式,提出了以某个最佳角度下行辐射值作为半球方向下行辐亮度的平均值来估算大气下行辐射的方法,研究了地表朗伯假设对大气下行辐射效应及传感器入瞳处总辐射的影响,给出了朗伯假设导致的最大可能相对误差的表达式。研究以TERRA-MODIS热红外通道31和32为例,以内蒙古二连浩特地区草场为研究区,输入2004年的探空资料和地温数据到大气辐射传输模型进行实验论证和数值模拟,得到以下初步结论:①对于二连浩特这样的典型内陆地区,忽略大气下行辐射效应最多能引起4K的误差,且随着卫星扫描角增加大气下行辐射效应在增加;②半球空间大气下行辐亮度为各向同性假设不是很合适,但可以获取某个最佳角度的下行辐射作为半球方向下行辐射平均值,以简化计算大气下行辐照度,对于二连浩特地区最佳角度取57°;③地表朗伯假设对大气下行辐射效应计算有影响,最大可能相对误差可达33.3%,随着卫星扫描角增加误差随之减少,综合考虑大气下行辐射效应占总辐射的比重,地表朗伯假设对总辐射影响不大,其带来的误差在可接受范围内。 相似文献
7.
大气二氧化碳是开展全球气候变化和碳循环研究的关键数据。卫星遥感技术与模式模拟相结合的反演方法已成为获取该数据的重要手段,但模式输入参数本身的误差会对大气二氧化碳反演精度产生影响,须在反演算法设计中加以关注。本文利用RTTOV10快速辐射传输模式模拟Aqua/AIRS红外探测仪17个大气二氧化碳反演通道,计算了这些通道上大气顶出射辐射对温度廓线、臭氧廓线、水汽廓线、地表温度和地表发射率的参数误差的不确定性,并与二氧化碳增加0.5%时造成的不确定性进行对比,分析二氧化碳对上述参数误差的敏感性。结果表明,温度廓线误差是干扰AIRS大气二氧化碳反演的主要因素,其次是臭氧廓线误差,而水汽廓线、地表温度和地表发射率的误差对二氧化碳反演的影响在除去个别通道后可忽略不计。最后,本文以通道为单位,确定了各通道上的高敏感参数、敏感参数和不敏感参数,为二氧化碳反演通道的选择和反演算法的设计提供了参考。 相似文献
8.
The radiative transfer is one of the significant theories that describe the processes of scattering, emission, and absorption of electromagnetic radiant intensity through scattering medium. It is the basis of the study on the quantitative remote sensing. In this paper, the radiative characteristics of soil, vegetation, and atmosphere were described respectively. The numerical solution of radiative transfer was accomplished by Successive Orders of Scattering (SOS). A radiative transfer model for simulating microwave brightness temperature over land surfaces was constructed, designed, and implemented. Analyzing the database generated from soil-vegetation-atmosphere radiative transfer model under Advanced Microwave Scanning Radiometer-Earth Observing System (AMSR-E) configuration showed that the atmospheric effects on microwave brightness temperature should not be neglected, particularly for higher frequency, and can be parameterized. At the same time, the relationship between the emissivities of the different channels was developed. The study results will promote the development of algorithm to retrieve geophysical parameters from microwave remotely sensed data. 相似文献
9.
热辐射方向性是指从不同方向观测同一目标地物时,测得的热辐射值各异的现象,通常体现为方向性辐亮度或亮温各异。随着高空间分辨率遥感数据的出现,面对高精度地表温度产品的需求,热辐射方向性效应不可忽视,如今已成为热红外遥感重点关注的问题之一。对于物质组成不均一、几何结构复杂的城市地表来说,热辐射方向性尤为显著。本文整理、分析了在城市地区开展的一系列热辐射方向性观测试验和正演模型,其中也包括一些对地表温度真值的有益探索;并对城市热辐射方向性强度的影响因素进行了归纳,包括观测季节与时间、地表几何结构、材料自身的物理属性、观测角度、视场角等,这些因素会使热辐射方向性的强度呈现出一定的时空规律性。最后,针对提高城市地表温度的反演精度、如何更好地开展城市热辐射方向性研究提出了5点展望。 相似文献
10.
HY-2A is the first one of the Chinese HY-2 ocean satellite series carrying a microwave radiometer(RM) to measure sea surface temperature,sea surface wind speed,atmospheric water vapor,cloud liquid water content, and rain rate. We verified the RM level 1B brightness temperature(T_B) to retrieve environmental parameters. In the verification, TB that simulated using the ocean-atmosphere radiative transfer model(RTM) was used as a reference. The total bias and total standard deviation(SD) of the RM level 1B T_B, with reference to the RTM simulation, ranged-20.6-4.38 K and 0.7-2.93 K, respectively. We found that both the total bias and the total SD depend on the frequency and polarization, although the values for ascending and descending passes are different. In addition, substantial seasonal variation of the bias was found at all channels. The verification results indicate the RM has some problems regarding calibration, e.g.,correction of antenna spillover and antenna physical emission, especially for the 18.7-GHz channel. Based on error analyses, a statistical recalibration algorithm was designed and recalibration was performed for the RM level 1B T_B. Validation of the recalibrated TB indicated that the quality of the recalibrated RM level 1B T_B was improved significantly. The bias of the recalibrated TB at all channels was reduced to 0.4 K, seasonal variation was almost eradicated, and SD was diminished(i.e., the SD of the 18.7-GHz channel was reduced by more than 0.5 K). 相似文献
11.
A Method for Retrieving Water-leaving Radiance from Landsat TM Image in Taihu Lake, East China 总被引:1,自引:0,他引:1
WANG Deyu FENG Xuezhi MA Ronghua KANG Guoding 《中国地理科学(英文版)》2007,17(4):364-369
The visible and infrared bands of Landsat Thematic Mapper (TM) can be used for inland water studies. A method of retrieving water-leaving radiance from TM image over Taihu Lake in Jiangsu Province of China was investigated in this article. To estimate water-leaving radiance, atmospheric correction was performed in three visible bands of 485nm, 560nm and 660nm. Rayleigh scattering was computed precisely, and the aerosol contribution was estimated by adopting the clear-water-pixels approach. The clear waters were identified by using the Landsat TM middle-infrared band (2.1μm), and the water-leaving radiance of clear water pixels in the green band was estimated by using field data. Aerosol scattering at green band was derived for six points, and interpolated to match the TM image. Assuming the atmospheric correction coefficient was 1.0, the aerosol scattering image at blue and red bands were derived. Based on a simplified atmospheric radiation transfer model, the water-leaving radiance for three visible bands was retrieved. The water-leaving radiance was normalized to make it comparable with that estimated from other remotely sensed data acquired at different times, and under different atmospheric conditions. Additionally, remotely sensed reflectance of water was computed. To evaluate the atmospheric correction method presented in this article, the correlation was analyzed between the corrected remotely sensed data and the measured water parameters based on the retrieval model. The results show that the atmospheric correction method based on the image itself is more effective for the retrieval of water parameters from Landsat TM data than 6S (Second Simulation of the Satellite Signal in the Solar Spectrum) code based on standard atmospheric and aerosol models. 相似文献
12.
The AMSR2 microwave radiometer is the main payload of the GCOM-W1 satellite,launched by the Japan Aerospace Exploration Agency in 2012. Based on the pre-launch information extraction algorithm,the AMSR2 enables remote monitoring of geophysical parameters such as sea surface temperature,wind speed,water vapor,and liquid cloud water content. However,rain alters the properties of atmospheric scattering and absorption,which contaminates the brightness temperatures measured by the microwave radiometer. Therefore,it is difficult to retrieve AMSR2-derived sea surface wind speeds under rainfall conditions. Based on microwave radiative transfer theory,and using AMSR2 L1 brightness temperature data obtained in August 2012 and NCEP reanalysis data,we studied the sensitivity of AMSR2 brightness temperatures to rain and wind speed,from which a channel combination of brightness temperature was established that is insensitive to rainfall,but sensitive to wind speed. Using brightness temperatures obtained with the proposed channel combination as input parameters,in conjunction with HRD wind field data,and adopting multiple linear regression and BP neural network methods,we established an algorithm for hurricane wind speed retrieval under rainfall conditions. The results showed that the standard deviation and relative error of retrievals,obtained using the multiple linear regression algorithm,were 3.1 m/s and 13%,respectively. However,the standard deviation and relative error of retrievals obtained using the BP neural network algorithm were better(2.1 m/s and 8%,respectively). Thus,the results of this paper preliminarily verified the feasibility of using microwave radiometers to extract sea surface wind speeds under rainfall conditions. 相似文献
13.
This paper demonstrates an atmospheric correction method to process MODIS/Aqua (Moderate-resolution Imaging Spectroradiometer) ocean color imagery over turbid coastal waters with the aid of concurrent CALIOP (Cloud-Aerosol LIdar with Orthogonal Polarization) aerosol data, assuming that there exists "nonturbid" water in the study area where MODIS aerosol optical properties can be retrieved accurately. Aerosol properties from CALIOP measurements were obtained and related to those from MODIS. This relationship, combined with CALIOP aerosol data, was extended to turbid water to derive MODIS aerosol properties, where atmospheric correction using MODIS data alone often fails. By combining MODIS and CALIOP data, aerosol signals were separated from the total signals at the satellite level, and water-leaving radiances in turbid waters were subsequently derived. This method was tested on several MODIS/Aqua ocean color images over South China turbid waters. Comparison with field data shows that this method was effective in reducing the errors in the retrieved water-leaving radiance values to some extent. In the Zhujiang (Pearl) River Estuary, this method did not overestimate the aerosol effects as severely, and provided far fewer negative water-leaving radiance values than the NASA (National Aeronautics and Space Administration) default methods that used MODIS data alone. 相似文献
14.
大气气溶胶对气候变化有重要的影响,由于观测资料缺乏,遥感成为越来越重要的研究手段。通过对气溶胶粒子的散射和反射特性分析表明,气溶胶的光学特性因气溶胶的成分和入射光波长的不同而不同,利用这些光谱差异,可以通过遥感方法进行光学厚度的反演,进而研究气溶胶的运动及分布、气候效应等特征。气溶胶中不同的粒子尺度及组成使其散射光学特性有较大的差异,2.1μm(或2.2μm)波段处的光谱反射率受尘粒气溶胶的影响较大;气溶胶具有时空变异特征;气溶胶在大气层上界(TDA)的辐射强迫表现为正效应,在单粒子反射率(SSA)的某一区间,其净效应因云状大小、表面反射率以及垂直气溶胶和云的分布的变化而变化,它通过影响云的凝聚核和半向效应而具有间接辐射强迫效应,另外它与臭氧的含量具有密切关系;在气溶胶信息的获取中,太阳光度计观测是一种重要手段,遥感正成为研究气溶胶越来越重要的途径。 相似文献
15.
A real-time photo-realistic rendering algorithm of ocean color is introduced in the paper, which considers the impact of ocean bio-optical model. The ocean bio-optical model mainly involves the phytoplankton, colored dissolved organic material (CDOM), inorganic suspended particle, etc., which have different contributions to absorption and scattering of light. We decompose the emergent light of the ocean surface into the reflected light from the sun and the sky, and the subsurface scattering light. We establish an ocean surface transmission model based on ocean bidirectional reflectance distribution function (BRDF) and the Fresnel law, and this model’s outputs would be the incident light parameters of subsurface scattering. Using ocean subsurface scattering algorithm combined with bio-optical model, we compute the scattering light emergent radiation in different directions. Then, we blend the reflection of sunlight and sky light to implement the real-time ocean color rendering in graphics processing unit (GPU). Finally, we use two kinds of radiance reflectance calculated by Hydrolight radiative transfer model and our algorithm to validate the physical reality of our method, and the results show that our algorithm can achieve real-time highly realistic ocean color scenes. 相似文献
16.
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17.
气溶胶光学厚度作为描述气溶胶光学特性的重要参数之一, 被广泛应用于空气质量监测及辐射传输模型的大气订正等研究中。卫星遥感可快速反演获取大范围气溶胶信息, 但其产品通常因云覆盖或暗目标算法等原因而存在空间覆盖率较低的问题, 且产品时相受限于卫星过境时间。水平能见度作为描述气溶胶光学特性的另一重要参数, 由分布广泛的气象台站一日8 次固定时间多次发布。建立水平能见度与气溶胶光学厚度的转换关系, 可实现对卫星反演气溶胶光学厚度的有益补充。本文利用2001-2009 年的MODIS气溶胶光学厚度产品与中国华东地区71 个气象台站的水平能见度数据, 对描述两者转换关系的Peterson 模型进行区域优化。采用分区域高斯曲线拟合的方法, 对影响转换精度的主要参数气溶胶标高随时间变化规律开展研究和模拟。利用2010 年数据对优化模型进行精度及区域适用性验证。结果表明, 优化后模型的气溶胶光学厚度估算均方根误差为0.31, 低于原模型误差;精度基本上与单站点优化模型一致, 但在实用性方面优于单站点优化模型。 相似文献
18.
在传统空间辐射计方法基础上,将对流层中水汽垂直分层效应集成到校正模型中,提出一种改进的InSAR大气延迟相位校正方法。为验证改进方法的可行性,利用MERIS近红外水汽产品去除北京地区地面沉降InSAR监测中的大气延迟相位。以陆态网络GNSS站点监测结果为基准,验证改进的大气校正方法的监测精度。改进的大气校正方法、空间辐射计校正法和未校正的InSAR监测结果与陆态网络GNSS站点监测结果对比显示,均方根误差分别为0.388 cm、0.603 cm、0.685 cm,表明改进的方法相比于未校正和传统方法具有更高的精度,能有效削弱干涉图中的大气延迟相位误差。 相似文献
19.
为分析不同光压模型在北斗卫星处于不同姿态控制模式下的定轨性能,从轨道内、外符合精度等方面分析ECOM 5参数模型、Box-Wing+ECOM 5参数模型和拓展版ECOM模型对北斗IGSO与MEO卫星定轨的适用性。结果显示,卫星处于非地影期时,BDS-2卫星使用ECOM 5参数模型时内、外符合精度最优,而BDS-3 MEO卫星使用Box-Wing+ECOM 5参数模型与拓展版ECOM模型时的轨道精度要略优于ECOM 5参数模型,3者内符合精度差异小于1 cm;卫星处于地影期时,BDS-2与BDS-3 MEO卫星使用拓展版ECOM模型精度最高,与其他光压模型相比,其轨道切向与法向内符合精度提升约20%~70%;对于BDS-3 IGSO卫星,由于观测数较少,导致其轨道精度要远低于其他北斗卫星,但综合来看,ECOM 5参数模型表现略优。 相似文献
20.
It is one of the important methods to retrieve lunar regolith thickness using active and passive microwave techniques. The retrieval of lunar regolith thickness is based on microwave radiation transfer process simulation in the regolith media. The lunar regolith model is first introduced, and the features of the involved physical parameters are indicated thereafter, such as dielectric constants, surface roughness, particle size and thermal grads of the lunar regolith. The time delay and the migration of the radar echoes from the different interfaces is the key problem for active microwave measurement. And the simulation of the microwave radiative transfer in the regolith media is the important technique for the passive microwave measurement. The important parameters and the physical mechanism for the two measurements are also presented. 相似文献