No description
68a4ac7956
based on the terrain simplification algorithm in Michael Garlands paper located here: http://graphics.cs.uiuc.edu/~garland/software/terra.html Essentially start with two triangles forming the bounding surface. Then add the point that has the greatest error. Retriangulate. Recalcuate errors for each remaining point, add the one with the greatest error. Lather, rinse, repeat. |
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src | ||
.cvsignore | ||
acinclude.m4 | ||
AUTHORS | ||
autogen.sh | ||
ChangeLog | ||
configure.ac | ||
detect.c | ||
Makefile.am | ||
NEWS | ||
README | ||
README.cygwin | ||
README.gpc | ||
README.howto | ||
README.nurbs++ | ||
README.plib | ||
README.SimGear | ||
TerraGear.dsp | ||
TerraGear.dsw | ||
VERSION.in |
FG Scenery Tools README ======================= Contained here-in are the FG scenery creation tools. These can be used to convert 3 arcsec ASCII format DEM files and 30 arcsec binary format DEM files into Flight Gear scenery. Eventually these tools will expand to support insertion of airports, roads, rivers, lakes, etc. Building the Tools ================== These tools are compiled and tested under Linux. I'm all for portability, but I just haven't been as motivated to port these tools, since scenery creation is less of a general need ... especially at this stage. However, if anyone wants to work on porting to other platforms, I will be happy to incorporate patches. The process for building these tools is very similar to building the main FG source code. 1. Set the FG_ROOT, FG_ROOT_SRC, and FG_ROOT_LIB environment variables. 2. Run ``make depend'' 3. Run ``make clean'' 4. Run ``make'' 3 Arcsec ASCII DEM files ======================== Data files for the USA are available in this format from: http://edcwww.cr.usgs.gov/doc/edchome/ndcdb/ndcdb.html To generate FG scenery from one of these dem files, run: ./process-dem.pl <error-tolerance-squared> dem-file-1 [ dem-file-2 ...] You can vary the error tolerance to control the level of detail (and size) of the resulting scenery. Note, you must specify the error tolerance squared. So, if you wish to allow up to a 10 meter error margin (very high level of detail) you would specify a value of 100. If you desire an error tolerance of 200 meters (medium detail level) you would specify a value of 40000. The process-dem.pl script will automatically dump the resulting .obj files in the proper directory tree. 30 Arcsec Binary DEM files ========================== These data files have world wide coverage and are available from: http://edcwww.cr.usgs.gov/landdaac/gtopo30/gtopo30.html To process these data files, you must first run: DemRaw2Ascii/raw2ascii <input_file_basename> <output_dir> For example: DemRaw2Ascii/raw2ascii /tmp/W020N90 asciidems/ This will create ASCII DEM files for each 1 degree x 1 degree area in the specified output dir. Then, you can take these ascii dem files and feed them through the same procedure you use with the 3 arcsec dem files.