= Lesson 3 = === Objectives (Already Shown) === * Add new images * Run CONVERT, make_sumfiles, and DYNAMICS * Manually tile LMK001 with 9, 0.4 km/px maplets * Run coverage to plot maplets * Run GEOMETRY and RESIDUALS * Check for poor residuals === Process New Images (Not sure how else to show this... seems sketchy) === * cd ../DAWN/NEW_IMAGES_2011_212 * ls -1 > $myvesta/newpix.txt * cd ../NEW_IMAGES_2011_212 * ls -1 >> $myvesta/newpix.txt * [[repeat for all folders 218 through 241]] * cd $myvesta * ../DAWN/UTILITIES/PROCESS_IMG.e * NEW_IMAGES_2011_212 * NEW_IMAGES_2011_218 * NEW_IMAGES_2011_223 * NEW_IMAGES_2011_226 * NEW_IMAGES_2011_230 * NEW_IMAGES_2011_232 * NEW_IMAGES_2011_235 * NEW_IMAGES_2011_238 * NEW_IMAGES_2011_241 === Make Sumfiles === * '''../DAWN/UTILITIES/make_sumfiles.e''' * '''y''' - Use B-Frame? (y/n) * 0. Create SUMFILES & NOMINALS and .. * 1. Update old NOMINALS and .. * 2. Update old SUMFILES * '''1''' === Dynamics === * '''emacs DYNAMICS.TXT''' * '''emacs PICTLIST.TXT''' * copy FC21A0003298 thru FC21A0003910 from PICTLIST.TXT into ‘APPROACH’ in DYNAMICS.TXT * copy FC21A0003931 thru FC21A0006732 from PICTLIST.TXT into ‘SURVEY’ in DYNAMICS.TXT * '''DYAMICS.e''' {{{ ETLM= 1800, 1.D-6 APPROACH VSIG= 0.200, 0.200, 0.200 PSIG= 0.0001, 0.0001, 0.0001 FC21A0002099 FC21A0002101 … FC21A0003895 FC21A0003910 ETLM= 1800, 1.D-6 SURVEY VSIG= 0.100, 0.100, 0.040 PSIG= 0.0001, 0.0001, 0.0001 FC21A0003931 FC21A0003932 … FC21A0006731 FC21A0006732 ETLM= 1800, 1.D-6 SURVEY TO HAMO VSIG= 0.200, 0.200, 0.200 PSIG= 0.0001, 0.0001, 0.0001 END }}} === Tile LMK000 === * Now we will tile LMK000 with 9 overlapping better resolution maplets * Our new maplets will have the following properties: * centers at pix,line in LMK000 * (25,25) (25,50) (25,75) * (50,25) (50,50) (50,75) * (75,25) (75,50) (75,75) * scale = 0.4 km/px * size = 99 x 99 px or ~ 40 x 40 km * name = LMK001-LMK009 === Step 1: Create Landmark === * '''c''' - Create new landmark * '''LMK001 - landmark name ''' * m''' ''' * LMK000''' ''' * 25,25''' - lat,lon ''' * .4,49''' - enter scale (km/px),qsz ''' * i''' - input landmark ''' * LMK001''' - landmark named (as previously named) ''' * y''' - check for more images? ''' * .5''' - fractional width ''' * n''' - reject invisibles ''' * '''display LMRK_Display1.pgm ''' '''=== Step 2: Eliminate Photos, Get Heights, Find Normal, V === ''' * '''e''' - eliminate pictures from landmark * '''a''' - auto eliminate * '''0,40,.2,.2,0,2''' - Input INVLIM, SLIM, CLIM, ILIM, RSMN, RSMX * display LMRK_Display1.pgm * '''b''' - get heights from surrounding map * '''y''' - List possibilities? * '''LMK000''' - input a 6-character landmark name * display LMRK_DISPLAY1.pgm * '''n''' - find normal * '''2''' - normal from heights * '''u''' - update landmark file (save) * '''1''' - save map * '''v''' - find V,Z, or PTG * '''2''' - Find Z from V and pointing === Step 3: Align Landmarks === * '''1''' - align landmarks * '''0''' - auto align * '''1''' - enter spacing * '''y''' - new spacing? * '''2''' - enter spacing * '''y''' - new spacing? * '''3''' - enter spacing * '''n''' - new spacing? * '''0''' - continue * '''y''' - update landmark pixel locations? * '''1''' - align landmarks * '''0''' - auto align * '''1''' - enter spacing * '''n''' - new spacing? * '''0''' - continue * '''y''' - update landmark pixel locations? * display LMRK_Display1.pgm