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Size: 3994
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| Deletions are marked like this. | Additions are marked like this. |
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| Use the following tile block with 20cm GSD. | Execute tile block with 20cm GSD. |
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| === 4.1 Setup Iteration === {{{ script |
Execute iteration |
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| cd test date pwd ls -l |
[[F3H-Iterate]] |
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| cat support/TAG100.in ls -l /usr/local/bin/bigmap /usr/local/bin/bigmap < support/TAG100.in cp USED_MAPS.TXT LIST.TXT duplicates |
== 5. Tile at 10cm == Execute tile block with 10cm GSD. |
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| cat make_script.in ls -l /usr/local/bin/MAKE_LMRKLISTX MAKE_LMRKLISTX ln -s scripts/make_scriptP.seed make_scriptP.seed cat make_scriptP.seed make_scriptP | tee run.sh ls -l |
[[F3H-Tile]] |
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| # Invoke batch iteration cat INIT_LITHOS.TXT lithosP -v nohup sh run.sh & |
== 6. Iterate == Execute iteration |
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| #since this will take awhile exit #copy typescript file somewhere... |
[[F3H-Iterate]] |
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| #when finished iterating | == 7. Clean landmarks == Execute [[Block 7 - Clean]] |
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| #clean landmarks | == 8. Geometry == |
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| script | == 9. Iterate == Execute iteration |
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| cd test date pwd ls -l |
[[F3H-Iterate]] == 10. Tile at 5cm == Execute tile block with 5cm GSD. |
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| # Check results find_nofitP | tee log-fitP sh support/logEvalP.sh cat logResults.txt cat lowImg.txt cat redo.txt |
[[F3H-Tile]] |
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| # Fix uncorrelated images # Manual correlation as required }}} === 4.2 User input prior to saving === {{{ gsd=XX #Enter ground sample distance in cm (ex. 20 for 20cm, 05 for 5cm) Itnum=XX #Enter iteration number }}} === 4.3 Save files === {{{ #Save files mkdir log/${gsd}cmIt${Itnum} #need to change XX as appropriate to gsd and iteration number |
== 11. Iterate == Execute iteration |
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| find_nofitP | tee log/${gsd}cmIt${Itnum}/log-fit sh support/logEvalP.sh cat logResults.txt cat lowImg.txt cat redo.txt cp *INN *OOT run_script*.b log/${gsd}cmIt${Itnum} |
[[F3H-Iterate]] |
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| # Clean directory sh rem_script.b rm TESTFILES/* rm TESTFILES1/* |
== 12. Clean landmarks == Execute [[Block 7 - Clean]] |
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#copy typescript somewhere }}} == 5. Clean landmarks == Execute [[Block 7 - Clean]] |
== 13. Run Stats == [[F3H-Stats]] |
Test F3H - Latitude
Goal: Physical characteristics of the object. The maximum variation in sub-solar position is a function of the latitude of the TAG site. The higher in latitude the TAG site is, the lower quality the variations in Sun vector. Thus, we can get a better idea about how big this error is as we move to the polar regions.
Test Set Up
Data: Detailed Survey.
Start: 75cm Preliminary Survey Shape Model.
Build: Build TAG Site 1 for each Sub-Test, but using different images than standard. Because the shape model has different topography, we would not be able to build a TAG Site at each latitude and compare results -- RMS is strongly effected by variations in topography. As such, we will adjust the position of the Sun so that the images match the observing/illumination conditions that DS would have if TAG Site 1 was at different latitudes.
Sub-Test F3H-1 to F3H-9
For each Sub-Test, we start with the Preliminary Survey Shape Model. We build the topography using the Detailed Survey Images that are available at each latitude. Images will need to be generated with Bennu with the Sun position that cannot really exist. Either Bennu can be inclined by the needed number of degrees with the pole and date matching the summer solstist, or the SPOC has tools to generate images and SUMFILES for specific illumination geometries. The SPOC has conducted similar variations in illumination parameters so this is well understood. For this test, the SPOC would use Imager_MG to generate the images, which generated almost all of the images needed for Test F2-Calibration. The Test Engineer has compared the output of Freespace and Imager_MG and has determined that the variations between the two systems are not significant.
Details for Sub-Test F3H-1 to F3H-9:
Sub-Test |
Latitude |
Number of Images |
Emission Range |
Incidence Range |
F3H-1 |
0° |
TBD |
TBD |
TBD |
F3H-2 |
-8° |
TBD |
TBD |
TBD |
F3H-3 |
-20° |
TBD |
TBD |
TBD |
F3H-4 |
-30° |
TBD |
TBD |
TBD |
F3H-5 |
-40° |
TBD |
TBD |
TBD |
F3H-6 |
-50° |
TBD |
TBD |
TBD |
F3H-7 |
-60° |
TBD |
TBD |
TBD |
F3H-8 |
-70° |
TBD |
TBD |
TBD |
F3H-9 |
-80° |
TBD |
TBD |
TBD |
Evaluate:
- Relative Accuracy. Create truth models for each of the latitude TAG sties. Then compute the RMS deviation between the truth and the model.
Examples:
Directory Setup
Run from the F3H-Lat directory
0. Start typescript
script date pwd ls -l
1. Create Sub-Test directory
rsync --delete -ha orig/ test/
2. Add Sub-Test images
/SPC_Test/F3H-Lat/base/IMAGEFILES/ should already have all the images. We will control the images used by SPC via PICTLIST.TXT
Should also set up a PICTLIST.TXT for each sub-test and put it in lsupport/
2.1 User Input
testID=F3H-X
2.2 Copy and/or link files
cp registered_images/$testID/NOMINALS/* test/NOMINALS/ ls -l test/NOMINALS cp registered_images/$testID/SUMFILES/* test/SUMFILES/ ls -l test/SUMFILES rm test/PICTLIST.TXT ln -s lsupport/PICTLIST_$testID.TXT test/PICTLIST.TXT cat test/PICTLIST.TXT mkdir test/log
3. Tile at 20cm
Execute tile block with 20cm GSD.
4. Iterate
Execute iteration
5. Tile at 10cm
Execute tile block with 10cm GSD.
6. Iterate
Execute iteration
7. Clean landmarks
Execute Block 7 - Clean
8. Geometry
9. Iterate
Execute iteration
10. Tile at 5cm
Execute tile block with 5cm GSD.
11. Iterate
Execute iteration
12. Clean landmarks
Execute Block 7 - Clean