textfile AutoCAL.txt

 
 
 
AutoCAL.txt text file
 
 
========== 4SM.8.07 AUTOMATIC CALIBRATION in AutoCalibrator on tarawa-subset.pix Tue Apr 24 14:30:29 2018
 
The following parameters were extracted using glint.shp, LsM.shp, Lsw.shp and vegetation.shp
-LsM/199.5/179.8/166.8LsM_CAL @@
-Lsw/026.5/014.0/006.5Lsw_CAL @@
-Lw/000.0/000.0/000.0Lw_CAL @@
-La/000.0/000.0/000.0La_CAL @@
-Vegetation 45.8 28.8 76.6 
===========================================================================
 
AutoCal in WriteAutoCalTextfile : -DCAL1/3/15
 
BPL calibration data have been deglinted
KIKJ=K[1]/K[2]=0.2500 was regressed from the image:
KIKJCAL[0][0]=0.0000 BiasCAL[0][0]=0.0000 R2CAL[0][0]=0.0000 
Wavelengths used are  -WL/550.0/650.0/850.0
 
Jerlov water type for K[1]/K[2]=0.2500 is NaN +0.0000
 
Attenuation coefficients in 1/m : -K0.000/0.000/4.500_AutoCal
 
ZED=0.75 m at Calibration Pixel -CP0199.5/179.8/012.0_AutoCal @@
 
 
 
==========The AutoCal process is not fully operational yet===========
It runs smoothly on most Landsat images which exhibit appropriate land areas and also some glint/haze
==========It shall progressively be made applicable to other imageries===========
Several problems still need investigations: like
      - Applicable operational wavelengths to represent wide wavebands for use of Jerlov's data
      - Blueish skyglint vs white sunglint in the specification of deep water radiance and of deglinting
 
Now you have to do the following
0 - Disable your current AutoCal script
1 - Copy the following command line into your script
2 - Enable  the -Calibrate... argument
3 - Run the calibration script for calibration
4 - Adjust the -Lw... argument to satisfaction
5 - Adjust any of these arguments/parameters to satisfaction
6 - Once satisfied, disable -Calibration and enable -Model

The practioner is now in charge when using the following commandline for modeling
7 - Run the Modeler

WARNING: if LsM[2] or LsM[3] have been updated, you should run -AutoCal again
WARNING: if Lsw[2] or Lsw[3] have been updated, you should run -AutoCal again
FINE PRINTS: seatruth data is needed to estimate a depth correcting factor and a tide height to depth datum
first, computed depths must be multiplied by the depth correcting factor
then, final retrieved depths are obtained by subtracting tide height from corrected computed depths
 
 
#Following is the simplified AutoCal CommandLine=mBPL=4 ======on Wed Apr 18 17:05:43 2018
nice -20  ./4SM.8.07 -Process/nosu/24_Apr_2018  -Origin/Tarawa_Kiribati @@
-dB/tarawa-subset/27_1S_0s_0s/3_1/650_600/718.069_169.231 @@
-Mis/Tarawa/Kiribati/Spot/XS/NA/bOA/UTM_+19_008/0.0200_0.0200/1_JAN_1986 @@
-Lsw/027.4/014.8/006.5_Lsw_AutoCal @@
-dLsw/00.0/000.0/000.0_dLsw @@
@dLsw/000.0/000.0/000.0 @@
-Lw/0001.5/000.0/000.0_Lw_AutoCal @@
-M/@000001/00002/00003_M @@
-Lm/0001.0/001.0/255.0_Lm @@
-LsM/199.5/179.8/166.8_LsM_AutoCal @@
@CP/199.53/179.76/12.02_0.75m_KIKJ=0.250 @@
-KK/1_2_0.2500/Knir4.5/CoefK_1.0/mask_3 @@
-Z/NA0.00d/nDR_0_1000_zDTM/mask_3 @@
-B/tclNe/cNorm2.50/Bmin0/cLM1.00 @@
-deglint/vrbaD/GlintM13 @@
-extract/v/rawBDH/FullBDH/NIRband3/NIRmax255/mBPL4 /mask_3 @@
-Calibrate/voAI/BDSNpzG/BDh_12_13 @@
-Model/v/rt1.00/dTM/ZM30/mask_3 @@
-Smooth/1/d/smart+ -LL/10 @@
@-DN300/100/3/comment @-DDshp @-DNshp @-Eshp @-E/1/650/1/600 @@

exit
 
 
#Following is the full       AutoCal CommandLine==mBPL=4 ======on Wed Apr 18 17:05:43 2018
nice -20  ./4SM.8.07 -Process/nosu/24_Apr_2018  -Origin/Tarawa_Kiribati @-Prepare/Scale @-Archive/Zip @@
-dB/tarawa-subset/27_1S_0s_0s/3_1/650_600/718.069_169.231 @@
-Mis/Tarawa/Kiribati/Spot/XS/NA/bOA/UTM_+19_008/0.0200_0.0200/1_JAN_1986 @@
@-URL/http://www.watercolumncorrection.com/ @@
-LS/00255/255/255 @@
@WLM/560.0/660.0/860.0 @@
@WLm/540.0/640.0/840.0 @@
@WL/0550.0/650.0/850.0 @@
-Lsw/027.4/014.8/006.5_Lsw_AutoCal @@
-dLsw/00.0/000.0/000.0_dLsw @@
@dLsw/000.0/000.0/000.0 @@
-Lw/0001.5/000.0/000.0_Lw_AutoCal @@
-M/@000001/00002/00003_M @@
-Lm/0001.0/001.0/255.0_Lm @@
-LsM/199.5/179.8/166.8_LsM_AutoCal @@
@CP/199.53/179.76/12.02_0.75m_KIKJ=0.250 @@
-KK/1_2_0.2500/Knir4.5/CoefK_1.0/Bm400_BG500_GR600_RN700/mask_3 @@
-Z/NA0.00d/cSL1.18/ZMax0.00/PAN_1_3/sIG_0w0/nDR_0_1000_zDTM/cZ1.000/mask_3 @@
-B/tclNe/cNorm2.50/LBref200_100/Bot_0_250_254_253/Bmin0/cLM1.00 @@
-deglint/vrbaD/cloud/q/DegTol1.00/F1/L3/FN/mDEGLINT1/GlintM13 @@
@AutoCAL/R2_0.95/print_2_3/MapBPL/MakeNewMask/Land_-5.0_1.18_4s/GetGlint/GlintM13/clouds @@
-extract/v/rawBDH/FullBDH/NIRband3/NIRmax255/mBPL4 /mask_3 /Ext_1_650_1_600 @@
-Calibrate/voAI/BDSNpzG/plot_BPL/figure/BDh_12_13 @@
-Model/v/rt1.00/dTM/ZM30/mask_3 @@
-Smooth/1/d/Csmooth1/smart+ -LL/10 @@
@-DN300/100/3/comment @-DDshp @-DNshp @-Eshp @-E/1/650/1/600 @@
exit
 
 
#Following are the main feature commandline arguments===============
@AutoCAL/print_1_2/mapBPL/MakeNewMask/gT3/Land_-5_1.3_3/GetGlint/GlintM60/clouds @@
@import/data*tarawa-full/dbnc_3_0_0_0/R650_L600/chIn1,3/chOut1,3/dbiw_451_650_473_557 @@
@Classify/Typerp10_1.15/Classifier_40_0_scef_LastChType1/SAM_0.15/mode_5_11_16 @@
@Classify/Typerp_1.15/Classifier_40_0_scef_LastChType1/SAM_0.15/mode_5_11_16 @@
@ProfileAB/LzrVWBc/profile_1/chAB_1_2_3_4 @@
@ProfileAB/lZrVWBc/profile_1/chAB_1_2_3 @@
@ProfileAB/lzRVWBc/profile_1/chAB_2_3/2_3/0_201/0_30_2.0 @@
@RegressZZ/VWpC/seatruth*name-seatruth-textfile/0.001_0_0/1.000_0.000/ZM/2_3/0_201/0_30_2.0/ALL @@
@RegressZZ/Vwpc/DTM_2/CXY_1.0_0_0/CZR_1.000_0.000/ZR/WZ_4_5/B_0_201/ZC_0_10_2/ALL @@
@Recode/2_InChannel_4_into_1_OutChannel_4/mask_1 @@
@Recode/2_InChannel_4_into_3_OutChannel_4/mask_3 @@
@Recode/2_InChannel_4_into_240_OutChannel_4/deep @@
@Recode/2_InChannel_4_into_248_OutChannel_4/land @@
@Recode/248_InChannel_4_into_248_OutChannel_4/land @@
@Recode/248_InChannel_4_into_21_OutChannel_4/mSOIL @@
@Recode/GT25_InChannel_3_into_234_OutChannel_4/NameShapeFile @@
@Recode/LT4_InChannel_3_into_249_OutChannel_4 @@
@Prepare/scale/delimb/fill/Smooth/linearize @@
@Import/GetImportKey_65814@42187860852760994610_gezirat/apr4casi/dbnc_0_0_12_0/5363_6566/1,12_65,76 @@
@Archive @@
@PurgeWIFEO @@
@TPsv/4/10/Text/Bmin150/PanCode1 @@
@DD480/2756/5/BrightShallow @@
@DN250/1387/2/BrightLand @@
@DDD144/148/113/126_7 @@
 

 
 
 
 
 
 
 
 
 
 
 
 
== 4SM.8.07 AUTOMATIC CALIBRATION in AutoCalibrator on tarawa-subset.pix Tue Apr 24 14:30:29 2018
 
The following parameters were extracted using glint.shp, LsM.shp, Lsw.shp and vegetation.shp
-LsM/199.5/179.8/166.8LsM_CAL \
-Lsw/026.5/014.0/006.5Lsw_CAL \
-Lw/000.0/000.0/000.0Lw_CAL \
-La/000.0/000.0/000.0La_CAL \
-Vegetation 45.8 28.8 76.6 
=========================================================
 
AutoCal in WriteAutoCalTextfile : -DCAL1/3/15
 
BPL calibration data have been deglinted
KIKJ=K[1]/K[2]=0.2500 was regressed from the image:
KIKJCAL[0][0]=0.0000 BiasCAL[0][0]=0.0000 R2CAL[0][0]=0.0000 
Wavelengths used are  -WL/550.0/650.0/850.0
 
Jerlov water type for K[1]/K[2]=0.2500 is NaN +0.0000
 
Attenuation coefficients in 1/m : -K0.000/0.000/4.500_AutoCal
 
ZED=0.75 m at Calibration Pixel -CP0199.5/179.8/012.0_AutoCal \
 
 
 
==========The AutoCal process is not fully operational yet===========
It runs smoothly on most Landsat images which exhibit appropriate land areas and also some glint/haze
==========It shall progressively be made applicable to other imageries===========
Several problems still need investigations: like
      - Applicable operational wavelengths to represent wide wavebands for use of Jerlov's data
      - Blueish skyglint vs white sunglint in the specification of deep water radiance and of deglinting
 
Now you have to do the following
0 - Disable your current AutoCal script
1 - Copy the following command line into your script
2 - Enable  the -Calibrate... argument
3 - Run the calibration script for calibration
4 - Adjust the -Lw... argument to satisfaction
5 - Adjust any of these arguments/parameters to satisfaction
6 - Once satisfied, disable -Calibration and enable -Model
The practioner is now in charge when using the following commandline for modeling
7 - Run the Modeler
WARNING: if LsM[2] or LsM[3] have been updated, you should run -AutoCal again
WARNING: if Lsw[2] or Lsw[3] have been updated, you should run -AutoCal again
FINE PRINTS: seatruth data is needed to estimate a depth correcting factor and a tide height to depth datum
first, computed depths must be multiplied by the depth correcting factor
then, final retrieved depths are obtained by subtracting tide height from corrected computed depths
 
 



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