== Autoregister == [[autoregister]] adds landmarks to one image at a time. Contrast that with [[lithos]] that adds images to landmarks. * Once you have a model, you will use [[autoregister]] to add images to the shape model. You will do this every time new images are collected. * [[autoregister]] does not update the topography itself. You still need to do an iteration to use the new images to build a template and generate topography. * When you accept the auto-alignment, SPC will update the spacecraft position and pointing. This is the same as running [[geometry]], option 2. * Look at the LMRK_DISPLAY1.pgm. How do the image/shape pair look. Any issues? If so, you may have to fix them. Autoregister the new MapCam images of the north pole. Do the following images (you registered these yesterday) {{{ M595949305F0 M595949731F0 M595950157F0 M595950583F0 M595951436F0 M595952715F0 M595953568F0 M595953994F0 M595956978F0 M595957405F0 M595959536F0 M595960815F0 }}} Basic autoregister cookbook: * autoregister * * y - add images * 0.5 * n * n - eliminate new * 0,50,.25,0,5 - criteria (notice there is one fewer parameter) * 1 - auto align * 2 - spacing * n - no new spacing * 0 - continue * y - accept changes (this will update the spacecraft pointing and position) * 1 - auto align * 1 - spacing * n - no new spacing * 0 - continue * y - accept changes (this will update the spacecraft pointing and position) * o - eliminate by correlation * .5 - Correlation value * 1 - auto align * 1 - spacing * n - no new spacing * 0 - continue * y - accept changes (this will update the spacecraft pointing and position and only use the remaining correlated images) * 4 - change flags * b - use all (this sets each image to be used when building a template) * 0 - end * q END == Tile a bigmap == Here you will tile the TAG site (Touch and Go site - where the spacecraft is planning on collecting a sample). We will do this in batch mode using make_scriptT. Key differences between tiling using a bigmap and tiling using lat/lon * The position definition is based upon a reference bigmap * We use the topography of the bigmap Name this file script/make_scriptT_bigmap.in {{{ XXXXXX scripts/XXX075.SEED 50 150 100 150 150 150 50 100 100 100 150 100 50 50 100 50 150 50 END }}} Cookbook for this task: * Create the make_scriptT_bigmap.in in the scripts directory * Make a symbolic link {{{ ln -s scripts/make_scriptT_bigmap.in make_scriptT.in}}} * Copy the TILE00.MAP file into your MAPFILES directory. [[attachment:TILE00.MAP]] * Make a symbolic link from TILE00.MAP to XXXXXX.MAP in the MAPFILES directory {{{ cd MAPFILES ln -s TILE00.MAP XXXXXX.MAP }}} * Double check all of your files. Running showmap on XXXXXX is a useful way to check that you have the right map installed. {{{ head make_scriptT.in head scripts/XXX075.SEED echo XXXXXX | showmap convert XXXXXX.pgm xxxxxx.jpg; open xxxxxx.jpg }}} * In the working directory, run make_scriptT * Review the output. You should see nine INN files. Check the file to see that it is correct * Run the run_script.b and monitor {{{ nohup sh run_script.b & find_nofitT }}}