6S输入数据.docx
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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(inputatmosphericconditions)输入数据文件
output_atmoscondition.txt(resultofatmosphericconditions)输出数据文件
Origin_image.raw(inputimage)输入图像文件
Revision_image.raw(outputimage)输出图像文件
第二个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1.1
40.0100.045.050.0723参考大气综合条件数据表1.2
8参考大气综合条件数据表1.3
3.00.35参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
0.250.250.250.25参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数据表1.8
1参考大气综合条件数据表1.9
210.50参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1.11
160000参考大气综合条件数据表1.12
大气综合条件数据表:
1.1.输入卫星的几何条件(Geometricalconditions):
0-7中的数字
0.usedefinition(用户自定义)1.meteosatobservation2.goeseastobservation3.goeswest4.avhrr(PMnoaa)5.avhrr(AMnoaa)6.hrv(spot)7.tm(landsat)
1.2.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:
θs,φs,θv,φv,Month,Day
1
meteosatobservation
输入:
Month,Day,Hour,Nb.cols,Nb.rows
month,day,decimalhour(universaltime-hh.ddd) n.ofcolumn,n.ofline.(fullscale5000*2500)
2
goeseastobservation
输入:
Month,Day,Hour,Nb.cols,Nb.rows
month,day,decimalhour(universaltime-hh.ddd)
n.ofcolumn,n.ofline.(fullscale17000*12000)c
3
goeswestobservation
输入:
Month,Day,Hour,Nb.cols,Nb.rows
month,day,decimalhour(universaltime-hh.ddd)
n.ofcolumn,n.ofline.(fullscale17000*12000)
4
avhrr(PMnoaa)
输入:
Month,Day,Hour,Nb.cols,Nb.rows
month,day,decimalhour(universaltime-hh.ddd)
n.ofcolumn(1-2048),xlonan,hna
givelong.(xlonan)andoverpasshour(hna)at
theascendantnodeatequator
5
avhrr(AMnoaa)
输入:
Month,Day,Hour,Nb.cols,LongA.N.,HourA.N.
month,day,decimalhour(universaltime-hh.ddd)
n.ofcolumn(1-2048),xlonan,hna
givelong.(xlonan)andoverpasshour(hna)at
theascendantnodeatequator
6
hrv (spot)
输入:
Month,Day,Hour,Long,Lat
7
tm (landsat)
输入:
Month,Day,Hour,Long,Lat
1.3.输入大气的模型(Atmosphericmodel)[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(nogaseousabsorption)
1
热带的(Tropical)
2
中纬度夏季(midlatitudesummer)
3
中纬度冬季(midlatitudewinter )
4
亚北极夏季(subarcticsummer)
5
亚北极(subarcticwinter)
6
北美标准(usstandard62 )
1.3.1对于7,8输入用户自定义参数表
7
用户自定义 (radiosondedataon34levels)
输入:
共34行,每行为:
altitude pressure temperature h2oo3
单位:
altitude (inkm) pressure(inmb) temperature (ink)
h2odensity(in g/m3) o3density (in g/m3)
forexample,altitudesare from 0to25kmstepof1km
from25to50kmstepof5km
andtwovaluesat70kmand100km
soyouhave34*5valuestoinput.
8
用户自定义
输入:
uw (in g/cm2) uo3(in cm-atm)
watervaporandozonecontents
1.4.输入气溶胶模型(Aerosolsmodel)[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(noaerosols )
1
大陆模型(continentalmodel)
2
海洋模型(maritimemodel)
3
城市模型(urbanmodel)
4
用户模型(usingbasiccomponents)
5
沙漠模型(DeserticModel)
6
生物圈模型(biomassModel)
7
同温层模型(stratosphericmodel)
8
用户模型(sizedistribution)
9
用户模型(sizedistribution)
10
用户模型(sizedistribution)
11
用户模型(sizedistribution)
12
用户模型(sizedistribution)
1.4.1[对应4,8-12]输入用户自定义气溶胶模型的参数
4
输入:
c
(1),c
(2),c(3),c(4)
含义:
thevolumicpercentageofeachcomponent
c
(1)=volumic%ofdust-like
c
(2)=volumic%ofwater-soluble
c(3)=volumic%ofoceanic
c(4)=volumic%ofsoot
allvaluesbetween0to1
8
MultimodalLogNormaldistribution(upto4modes)
输入:
Rmin,Rmax,NUMBEROFCOMPONENT{占据一行}
fori=1toicp
{输入:
rM(i),σ(i),Cij(i){占据一行}
forλ=1to10{占据一行}
输入:
rn(λ,i),
forλ=1to10{占据一行}
输入:
ri(λ,i,}
例子:
0.0001100.03(Rmin,Rmax,NUMBEROFCOMPONENT)
0.50002.9901.66E-7
1.5301.5301.5301.5301.5301.5301.5201.4001.2201.270
8.0e-38.0e-38.0e-38.0e-38.0e-38.0e-38.0e-38.0e-39.0e-31.1e-2
0.00502.9900.5945
1.5301.5301.5301.5301.5301.5301.5201.5101.4201.452
5.0e-35.0e-35.0e-36.0e-36.0e-37.0e-31.2e-22.3e-21.0e-24.0e-3
0.01182.000.4055
1.7501.7501.7501.7501.7501.7501.7501.7701.8101.900
.460.450.450.440.430.430.430.460.500.570
10
JungePower-Lawdistribution
输入:
rmin,rmax{占据一行}
输入:
α{占据一行}
forλ=1to10[
输入:
rn(λ,i),{占据一行}
forλ=1to10
输入:
ri(λ,i),{占据一行}
11
SunPhotometerdistribution(50valuesmax)
输入:
Irsunph{占据一行}
fori=1toirsunph
输入:
r(i),(dV/dlog(r))(i){占据一行}
forλ=1to10{占据一行}
输入:
rn(λ,i),
forλ=1to10{占据一行}
输入:
ri(λ,i
12
ReadingofdatapreviouslysavedintoFILE
1.5.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
1.6.输入目标高度xps(Targetalitudesensorplatform)
xps<=0.meansyouknowthealtitudeofthetargetexpressedinkmand
xps>0.meansthetargetisatthesealevel
1.7输入遥感器高度xpp
xpp<=-1000 meansthatthesensorisaboardasatellite
xpp=0 meansthatthesensorisatthegroundlevel
-100inkilometersunits
1.7.1如果-100输入:
Uh2oUo3{占据一行}
taerp{占据一行}
含义:
Uh2oUo3:
watervaporcontent,ozonecontentbetweenthe aircraftandthesurface
taerp:
theaerosolopticalthicknessat550nmbetweentheaircraftandthesurface
1.8.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
用户自定义
1
用户自定义
2
visbandofmeteosat (0.350-1.110)
3
visbandofgoeseast (0.490-0.900)
4
visbandofgoeswest (0.490-0.900)
5
1stbandofavhrr(noaa6)(0.550-0.750)
6
2nd " (0.690-1.120)
7
1stbandofavhrr(noaa7)(0.500-0.800)
8
2nd " (0.640-1.170)
9
1stbandofavhrr(noaa8)(0.540-1.010)
10
2nd " (0.680-1.120)
11
1stbandofavhrr(noaa9)(0.530-0.810)
12
2nd " (0.680-1.170)
13
1stbandofavhrr(noaa10)(0.530-0.780)
14
2nd " (0.600-1.190)
15
1stbandofavhrr(noaa11)(0.540-0.820)
16
2nd " (0.600-1.120)
17
1stbandofhrv1(spot1)(0.470-0.650)
18
2nd " (0.600-0.720)
19
3rd " (0.730-0.930)
20
pan " (0.470-0.790)
21
1stbandofhrv2(spot1)(0.470-0.650)
22
2nd " (0.590-0.730)
23
3rd " (0.740-0.940)
24
pan " (0.470-0.790)
25
1stbandoftm(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)
31
1stbandofmss(landsat5)(0.475-0.640)
32
2nd " (0.580-0.750)
33
3rd " (0.655-0.855)
34
4th " (0.785-1.100)
35
1stbandofMAS(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)
42
MODIS band1 (0.6100-0.6850)
43
MODIS band2 (0.8200-0.9025)
44
MODIS band3 (0.4500-0.4825)
45
MODIS band4 (0.5400-0.5700)
46
MODIS band5 (1.2150-1.2700)
47
MODIS band6 (1.6000-1.6650)
48
MODIS band7 (2.0575-2.1825)
49
1stbandofavhrr(noaa12)(0.500-1.000)
50
2nd " (0.650-1.120)
51
1stbandofavhrr(noaa14)(0.500-1.110)
52
2nd " (0.680-1.100)
53
POLDER band1 (0.4125-0.4775)
54
POLDER band2(nonpolar(0.4100-0.5225)
55
POLDER band3(nonpolar(0.5325-0.5950)
56
POLDER band4 P1 (0.6300-0.7025)
57
POLDER band5(nonpolar(0.7450-0.7800)
58
POLDER band6(nonpolar(0.7000-0.8300)
59
POLDER band7 P1 (0.8100-0.9200)
60
POLDER band8(nonpolar(0.8650-0.9400)
61
ETM+1
62
ETM+2
63
ETM+3
64
ETM+4
65
ETM+5
66
ETM+7
67
ETM+8
模型代号
含义
-2
输入:
wlinf,wlsup
备注:
thefilterfunctionwillbeequalto1overthewholeband(asiwave=0)butstepbystepoutput willbeprintedbe
-1
输入:
wl
备注:
monochr.cond, gaseousabsorptionisincluded
0
输入:
wlinf,wlsup.
备注:
thefilterfunctionwillbeequalto1overthewholeband.
1
输入:
wlinf,wlsup,user'sfilterfunctions(lambda)
bystepof0.0025micrometer
1.9.输入地表是否均匀(HOMOGENEOUSCASE)
0代表均匀1代表不均匀
1.9.1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。
1.9.1.1如果直接影响为0,则输入然后输入地面反射类型GROUNDREFLECTANCE。
数值见下表
-1
用户定义
0
用户定义
1
VEGETA
2
CLEARW
3
SAND
4
LAKEW
1.9.1.1.1输入groundreflectance用户定义值
-1
输入ro
0
输入ro[组]
bystepof0.0025micron
1.9.1.2输入BRDF模型代号
模型代号
含义
0
in-situmeasurements
1
Hapke'smodel
2
Verstraete'sm