6S输入数据.docx

1、6S输入数据 关于6S的输入文件6S的输入方式是通过文件的方法进行的。6S的输入文件有两个，一个是包含输入输出数据，输入输出图像文件名的文件，另外一个是输入数据文件。第一个文件的内容如下：input_atmoscondition.txt ( input atmospheric conditions)输入数据文件output_atmoscondition.txt (result of atmospheric conditions)输出数据文件Origin_image.raw (input image)输入图像文件Revision_image.raw (output image)输出图像文件第二个

2、文件的数据输入参考下表（大气综合条件数据表）例如：0 参考大气综合条件数据表1.140.0 100.0 45.0 50.0 7 23 参考大气综合条件数据表1.28 参考大气综合条件数据表1.33.0 0.35 参考大气综合条件数据表1.3.1 4 参考大气综合条件数据表1.4 0.25 0.25 0.25 0.25 参考大气综合条件数据表1.4.1 0 参考大气综合条件数据表1.5 0.50 参考大气综合条件数据表1.5.1 -0.2 参考大气综合条件数据表1.6 -3.3 参考大气综合条件数据表1.7 -1.5 -0.35 参考大气综合条件数据表1.7.1 0.25 11 参考大气综合条件

3、数据表1.8 1 参考大气综合条件数据表1.9 2 1 0.50 参考大气综合条件数据表1.9.2 -0.10 参考大气综合条件数据表1.10-1 参考大气综合条件数据表1.11160000 参考大气综合条件数据表1.12大气综合条件数据表：11 .输入卫星的几何条件(Geometrical conditions):0-7中的数字 0.use definition(用户自定义）1.meteosat observation 2.goes east observation 3.goes west 4.avhrr ( PM noaa ) 5.avhrr ( AM noaa ) 6.hrv( spot

4、 ) 7.tm( landsat )12 .根据输入对应时间，角度几何条件类型输入对应时间，角度0无输入:s, s, v, v, Month, Day1meteosat observation输入: Month, Day, Hour, Nb. cols, Nb. rowsmonth,day,decimal hour(universal time-hh.ddd) n. of column,n. of line.(full scale 5000*2500)2goes east observation输入: Month, Day, Hour, Nb. cols, Nb. rowsmonth,day,

5、decimal hour (universal time-hh.ddd) n. of column,n. of line.(full scale 17000*12000)c3goes west observation输入: Month, Day, Hour, Nb. cols, Nb. rowsmonth,day,decimal hour (universal time-hh.ddd) n. of column,n. of line.(full scale 17000*12000)4avhrr ( PM noaa )输入: Month, Day, Hour, Nb. cols, Nb. row

6、smonth,day,decimal hour (universal time-hh.ddd) n. of column(1-2048),xlonan,hna give long.(xlonan) and overpass hour (hna) at the ascendant node at equator5avhrr ( AM noaa )输入:Month, Day, Hour, Nb. cols, Long A.N., Hour A.N.month,day,decimal hour (universal time-hh.ddd) n. of column(1-2048),xlonan,h

7、na give long.(xlonan) and overpass hour (hna) at the ascendant node at equator6hrv ( spot )输入: Month, Day, Hour, Long, Lat7tm ( landsat )输入: Month, Day, Hour, Long, Lat13. 输入大气的模型( Atmospheric model )输入1-8中的数字，对于7，8还要输入自定义的值模型代号含义0无气体的吸收(no gaseous absorption)1热带的(Tropical)2中纬度夏季(midlatitude summer)

8、3中纬度冬季(midlatitude winter)4亚北极夏季(subarctic summer)5亚北极(subarctic winter)6北美标准（us standard 62）1.3.1对于7，8输入用户自定义参数表7用户自定义 (radiosonde data on 34 levels) 输入: 共34行,每行为: altitudepressure temperature h2o o3单位: altitude( in km ) pressure(in mb ) temperature( in k ) h2o density(ing/m3) o3 density (ing/m3) f

9、or example, altitudes are from 0 to 25km step of 1km from 25 to 50km step of 5km and two values at 70km and 100km so you have 34*5 values to input.8用户自定义输入: uw (in g/cm2 ) uo3 (in cm-atm) water vapor and ozone contents14. 输入气溶胶模型（Aerosols model）输入1-12中的数字，对于4，8-12还要输入自定义的值模型代号含义0无气溶胶（no aerosols）1大陆

10、模型(continental model)2海洋模型（maritime model）3城市模型(urban model)4用户模型(using basic components)5沙漠模型(Desertic Model)6生物圈模型(biomass Model)7同温层模型(stratospheric model)8用户模型(size distribution)9用户模型(size distribution)10用户模型(size distribution)11用户模型(size distribution)12用户模型(size distribution)1.4.1 对应4,8-12输入用户自

11、定义气溶胶模型的参数4输入: c(1) ,c(2),c(3), c(4)含义:the volumic percentage of each component c(1) = volumic % of dust-like c(2) = volumic % of water-soluble c(3) = volumic % of oceanic c(4) = volumic % of soot all values between 0 to 18Multimodal Log Normal distribution (up to 4 modes)输入:Rmin, Rmax, NUMBER OF CO

12、MPONENT 占据一行for i=1 to icp输入:rM(i), (i), Cij(i) 占据一行for =1 to 10 占据一行输入:rn(,i),for =1 to 10 占据一行输入:ri(,i,例子:0.0001 100.0 3 (Rmin, Rmax, NUMBER OF COMPONENT)0.5000 2.990 1.66E-7 1.530 1.530 1.530 1.530 1.530 1.530 1.520 1.400 1.220 1.2708.0e-3 8.0e-3 8.0e-3 8.0e-3 8.0e-3 8.0e-3 8.0e-3 8.0e-3 9.0e-3 1

13、.1e-20.0050 2.990 0.59451.530 1.530 1.530 1.530 1.530 1.530 1.520 1.510 1.420 1.4525.0e-3 5.0e-3 5.0e-3 6.0e-3 6.0e-3 7.0e-3 1.2e-2 2.3e-2 1.0e-2 4.0e-30.0118 2.00 0.40551.750 1.750 1.750 1.750 1.750 1.750 1.750 1.770 1.810 1.900.460 .450 .450 .440 .430 .430 .430 .460 .500 .570 10Junge Power-Law dis

14、tribution 输入:rmin,rmax 占据一行输入: 占据一行for =1 to 10 输入:rn(,i), 占据一行for =1 to 10输入:ri(,i), 占据一行 11Sun Photometer distribution (50 values max) 输入: Irsunph 占据一行for i=1 to irsunph输入:r(i), (dV/dlog(r)(i) 占据一行for =1 to 10 占据一行输入:rn(,i),for =1 to 10 占据一行输入:ri(,i 12Reading of data previously saved into FILE 15.

15、 输入气溶胶模型的浓度(可见度) 在集合-1,0,0的正值中选一个值1.5.1 当选择0时,再输入气溶胶感光深度（AOD）的一个估计值16.输入目标高度xps (Target alitude sensor platform) xps 0. means the target is at the sea level17 输入遥感器高度xppxpp= -1000 means that the sensor is a board a satellite xpp= 0 means that the sensor is at the ground level-100xpp0 means you know

16、the altitude of the sensor expressed in kilometers units171如果-100xpp0输入：Uh2o Uo3 占据一行 taerp 占据一行含义：Uh2o Uo3 ： water vapor content, ozone content between the aircraft and the surfacetaerp ：the aerosol optical thickness at 550nm between the aircraft and the surface18输入传感器的波段代号模型代号含义-2用户自定义 -1用户自定义0用户自

17、定义1用户自定义 2 vis bandof meteosat ( 0.350-1.110 ) 3 vis bandof goes east ( 0.490-0.900 ) 4 vis bandof goes west ( 0.490-0.900 ) 5 1st bandof avhrr(noaa6) ( 0.550-0.750 ) 6 2nd ( 0.690-1.120 ) 7 1st bandof avhrr(noaa7) ( 0.500-0.800 ) 8 2nd ( 0.640-1.170 ) 9 1st bandof avhrr(noaa8) ( 0.540-1.010 ) 10 2n

18、d ( 0.680-1.120 ) 11 1st band of avhrr(noaa9)( 0.530-0.810 ) 12 2nd ( 0.680-1.170 ) 13 1st band of avhrr(noaa10) ( 0.530-0.780 ) 14 2nd ( 0.600-1.190 ) 15 1st band of avhrr(noaa11)( 0.540-0.820 ) 16 2nd ( 0.600-1.120 ) 17 1st band of hrv1(spot1) ( 0.470-0.650 ) 18 2nd ( 0.600-0.720 ) 19 3rd ( 0.730-

19、0.930 ) 20 pan ( 0.470-0.790 ) 21 1st band of hrv2(spot1) ( 0.470-0.650 ) 22 2nd ( 0.590-0.730 ) 23 3rd ( 0.740-0.940 ) 24 pan ( 0.470-0.790 ) 25 1st band of tm(landsat5)( 0.430-0.560 ) 26 2nd ( 0.500-0.650 ) 27 3rd ( 0.580-0.740 ) 28 4th ( 0.730-0.950 ) 29 5th ( 1.5025-1.890 ) 30 7th ( 1.950-2.410

20、) 31 1st band of mss(landsat5)(0.475-0.640 ) 32 2nd ( 0.580-0.750 ) 33 3rd ( 0.655-0.855 ) 34 4th ( 0.785-1.100 ) 35 1st band of MAS(ER2) ( 0.5025-0.5875) 36 2nd ( 0.6075-0.7000) 37 3rd ( 0.8300-0.9125) 38 4th ( 0.9000-0.9975) 39 5th ( 1.8200-1.9575) 40 6th ( 2.0950-2.1925) 41 7th ( 3.5800-3.8700) 4

21、2 MODIS band 1 ( 0.6100-0.6850) 43 MODIS band 2 ( 0.8200-0.9025) 44 MODIS band 3 ( 0.4500-0.4825) 45 MODIS band 4 ( 0.5400-0.5700) 46 MODIS band 5 ( 1.2150-1.2700) 47 MODIS band 6 ( 1.6000-1.6650) 48 MODIS band 7 ( 2.0575-2.1825) 49 1st band of avhrr(noaa12) ( 0.500-1.000 ) 50 2nd ( 0.650-1.120 ) 51

22、 1st band of avhrr(noaa14) ( 0.500-1.110 ) 52 2nd ( 0.680-1.100 ) 53 POLDER band1 ( 0.4125-0.4775) 54 POLDER band2 (non polar( 0.4100-0.5225) 55 POLDER band3 (non polar( 0.5325-0.5950) 56 POLDER band4 P1 ( 0.6300-0.7025) 57 POLDER band5 (non polar( 0.7450-0.7800) 58 POLDER band6 (non polar( 0.7000-0

23、.8300) 59 POLDER band7 P1 ( 0.8100-0.9200) 60 POLDER band8 (non polar( 0.8650-0.9400)61ETM+162ETM+263ETM+364ETM+465ETM+566ETM+767ETM+8模型代号含义-2输入： wlinf, wlsup 备注：the filter function will be equal to 1 over the whole band (as iwave=0) but step by step output will be printed be-1输入： wl 备注：monochr. con

24、d, gaseous absorption is included0输入： wlinf, wlsup. 备注：the filter function will be equal to 1 over the whole band.1输入：wlinf , wlsup , users filter function s(lambda) by step of 0.0025 micrometer19.输入地表是否均匀(HOMOGENEOUS CASE) 0代表均匀1代表不均匀191 如果地表均匀度为0，则要输入是否直接影响 0代表无直接影响，1代表相反。1911 如果直接影响为0，则输入然后输入地面反射类型GROUND REFLECTANCE。数值见下表 -1用户定义 0用户定义 1VEGETA 2CLEARW 3SAND 4LAKEW 19111 输入ground reflectance 用户定义值 -1输入ro 0输入ro 组by step of 0.0025 micron 1912输入BRDF模型代号 模型代号含义0in-situ measurements1Hapkes model2Verstraetes m