## page was renamed from ReferencePeaks Test 11: ReferencePeaks Take PIT020 as the only maplet in MAPLIST.TXT. Generate 5cm images of the topography (which is based at TAG Site 1). Then we build a MAPLET, saving the MAPLETs flatMapVect at several states. === Simple Variations === Groups of images - (adjusted for 5cm) * Test11A - Detailed Survey. Eric (Has 11 images, very low in sample space) * Test11B - Min Orbit B (by hand, calculate the minimum requirement) * Test11C - Average Orbit B (use a random Orbit B solution with 3 unique observation/illumination conditions) * Test11D - Best Orbit B (as we did before) * Test11E - Optimum Collection (as we did before) || Name || Sun Az || Sun Zenith || S/C Az || S/C Zenith || || Optimum Collection1 || 0, 90, 180, 270 || 45 || every 20 || 45 || || Optimum Collection2 || 135 || 30 || every 20 || 45 || * Test11U - Criss Cross (combine both of these sets) || Name || Sun || S/C Az || S/C Zenith || || Criss Cross 1 || 80, 60, 40, 20, 0, -20, -40, -60, -80 || 45 || 45 || || Criss Cross 2 || 45 || 0, 180 || 80, 60, 40, 20, 0 || === Variations === Spacecraft Azimuth Variations || Name || Sun || S/C Az || S/C Zenith || Who || RMS w/trans || || [[Over11F]] [[Test11F]] || 45, 0, -45 || every 20 || 45 || Diane || Test11F=0.77cm || || [[Test11G]]|| 45, 0, -45 || every 30 || 45 || Diane || 0.83cm || || [[Test11H]]|| 45, 0, -45 || every 45 || 45 || Tanner || ||[[newover11IJRW]][[newTest11I]] [[Test11I]]|| 45, 0, -45 || every 60 || 45 || Kris || 1.21cm || ||[[over11J]] [[newTest11J]] [[Test11J]]|| 45, 0, -45 || every 90 || 45 || John || 2.52cm || Sun Variations || Name || Sun || S/C Az || S/C Zenith || Who || RMS w/trans || ||[[over11K]] [[Test11K]]|| 30 || every 45 || 45 || Diane || 3.61cm || || [[Test11L]]|| 30 -30 || every 45 || 45 || Tanner || || [[Test11M]]|| -45, -45 || every 45 || 45 || Kris || || [[over11N]] [[Test11N]]|| 30, 0, -30 || every 45 || 45 || John || || [[Test11P]]|| 45, 30, 0, -30, -45 || every 45 || 45 || Diane || 0.71cm || || [[Test11Q]]|| 60, 45, 30, 0, -30, -45, -60 || every 45 || 45 || Tanner || || [[Test11R]]|| 60, 30, -30, -60 || every 45 || 45 || Kris || (eep 0.62cm)|| Spacecraft Zenith Variations [[Comparison]] || Name || Sun || S/C Az || S/C Zenith || Who || RMS w/trans || || [[Over11S]] [[Test11S]]|| 45, 0, -45 || every 45 || 0, 30, 60 || John || || [[Over11T]] [[Test11T]]|| 45, 0, -45 || every 45 || 0, 20, 40, 60, 80 || Tanner || || [[Over11U]] [[Test11U]]|| 45, 0, -45 || every 45 || 0, 14, 30, 45, 60, 75 || Diane || 1.02cm || === Hill Data === I have created the following hills for testing * PIT007 - 7 deg tilt * PIT014 - 14 deg tilt * PIT020 - 20 deg tilt <-- Let's use this one * PIT030 - 30 deg tilt * PIT045 - 45 deg tilt * PIT060 - 60 deg tilt === Truth Maplets === * -8.027 262.768 * T11TRU.MAP - already built. It has the truth heights loaded from PIT020. * T11TRU.TXT -- Text file of the maplet. Use for plotting transits * t11-truth.obj -- OBJ file for testing using CompareOBJ === Testing Maplets === * -8.027 262.768 * Build a model MAPLET using TAG Site 1 center position (5cm resolution and Q=49). Do not load a base map for topography * Create MOD20#, which # is the test number (letter) * Align the images with the key location at 50/50. * Build template with 100 * (Skip until close to perfect) -- Do an auto align * Build height using the iteration template * Do flatMapVec and rename it to mod-20#-1 * Do compMapVec between MOD20# and T11TRU * Repeat as necessary Iteration Template {{{ 0 0 44 2 8 fill no data with shape slope 7 .01 6 y y 1 condition with overlapping maps 2 condition with existing topo .01 6 y y 0 begin integration .025 100 0 v 1 u 1 o overlaps RECENT n 1 i r n n }}} === Useful copy/paste stuff === {{{ echo CENTER | /usr/local/localBin/flatMapVec /usr/local/localBin/compMapVec MAPFILES/CENTER MAPFILES/T11TRU.MAP ~/eval/bin/Maplet2FITS MAPFILES/CENTER fit ~/eval/bin/FITS2OBJ --local fit center.obj ~/eval/bin/CompareOBJ --compute-optimal-translation-and-rotation center.obj newtru.obj convert LMRK_DISPLAY1.pgm display.jpg mkdir step02 cp CENTER.TXT MAPFILES/CENTER.MAP step02 gnuplot set term x11 set style data lines plot 'NEW020.TXT' u 0:50 lw 3 lc 0, 'CENTER.TXT' u 0:50 set output 'out.png' set term png replot unset output set term x11 exit mv out.png mod20f.obj MOD20F.TXT comp.txt display.jpg step2 }}} === Save States === The goal is to see the evolution of the model over time. You can stop iterations once the peak and base are stable. The most likely tool to evaluate if the model has reached it best fit will be transit. Save the flatMapVect statistics at the following number of iterations * 1st * 2nd * 3rd * 5th * 10th * 15th * 20th * 50th (if needed) * 100th (if needed) * 200th (if needed) === Examples === {{attachment:peak-img.png}} Example of a 14 degree peak, measured at difference locations {{attachment:14.png}} Example of a 20 degree peak, measured over time {{attachment:20.png}}