• F3E-Limbs Prepping High & Low Stereo Directories

F3E-Limbs Prepping High & Low Stereo Directories

Before each subtest regarding the various limb images can be performed a high stereo and low stereo directory must be made. The high and low stereo directories will contain approach, PS, and four DS polycam images. For the high stereo directory the DS polycam images will have a stereo angle and vice versa for the low stereo angle directory. Both of these directories are supposed to have a 52 by 52 meter area centered on the tag site tiled down to 5 cm. Once the tag site is tiled down to 5 cm Geometry will be run to update the spacecraft position when the images were taken. Then a 20 by 20 m area of the tag site will be evaluated by recording the RMS value (comparison between truth and effort). The updated spacecraft position will be recorded as well.

Procedures

These for the most part are very similar to Eric Palmer's F3A Baseline procedures. Some notes have been added that discuss resolved issues during this part of the F3E test. Also, making the high and low stereo directories follow the same preocdures with the exception of different DS polycam images being used.

Setting up the test directory

Basically the orig directory is being copied over to the test directory with the test directory being emptied first. Following the 1B procedural block for test F3-G made by Diane Lambert does this exactly.

Test F3G Procedures Block-1B - TEST DIRECTORY SET-UP - TEST

Symbolically Linking the Correct List of Images to PICTLIST.TXT

While in the test directory for high stereo:

rm PICTLIST.TXT
ln -s ../lsupport/PICTLISTF3Ehigh.txt PICTLIST.TXT

While in the test directory for low stereo:

rm PICTLIST.TXT
ln -s ../lsupport/PICTLISTF3Elow.txt PICTLIST.TXT

Register High Stereo or Low Stereo Images

For the high stereo directory (test directory):

imgListName=highRegistering.txt

Execute Block 3 - Register

For the low stereo directory (test directory):

imgListName=highRegistering.txt

Execute Block 3 - Register

Tile at 20 cm

bigmapName=TILE20
GSD=0.00020

Execute Block 6B - Bigmap Tiling

Iterate and Look for correlation errors

Execute Block 5 - Iterate -- Use the Recently Tiled scenario

find_nofitP
support/logEval.sh

Tile at 10 cm

bigmapName=TILE10
GSD=0.00010

Execute Block 6B - Bigmap Tiling

== Iterate and Look for correlation errors ===

Execute Block 5 - Iterate -- Use the Recently Tiled scenario

find_nofitP
support/logEval.sh

Check basic stability and run Geometry

Execute Block 8 - Geometry/Residuals