Virtual Planet Builder: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
Line 12: | Line 12: | ||
*** ... which requires the sqlite3.11 or above development package (on linux - 'sudo apt-get install libsqlite3-dev') | *** ... which requires the sqlite3.11 or above development package (on linux - 'sudo apt-get install libsqlite3-dev') | ||
Note that GDAL and PROJ do not use cmake, so | Note that GDAL and PROJ do not use cmake, so it builds in the source directory as follows: | ||
./configure -prefix=/path/to/install | |||
make | |||
VPB is built using cmake e.g. | VPB is built using cmake e.g. | ||
cmake -DOSG_DIR=/path/to/OSG/install /path/to/VPB/src | cmake -DOSG_DIR=/path/to/OSG/install /path/to/VPB/src | ||
make | |||
== Getting Landcover Data == | == Getting Landcover Data == | ||
Line 34: | Line 37: | ||
Here are the options I've used: | Here are the options I've used: | ||
./bin/osgdem --geocentric -t /home/stuart/FlightGear/VPB/data/CORINE/u2018_clc2018_v2020_20u1_raster100m/DATA/U2018_CLC2018_V2020_20u1.tif -d /home/stuart/FlightGear/VPB/data/SRTM90/srtm_36_01.tif -e -5 54 -2 56 --PagedLOD -l 5 --RGB-24 -o foo.osgb | ./bin/osgdem --geocentric -t /home/stuart/FlightGear/VPB/data/CORINE/u2018_clc2018_v2020_20u1_raster100m/DATA/U2018_CLC2018_V2020_20u1.tif -d /home/stuart /FlightGear/VPB/data/SRTM90/srtm_36_01.tif -e -5 54 -2 56 --PagedLOD -l 5 --RGB-24 -o foo.osgb | ||
* --geocentric because that's what FG uses | * --geocentric because that's what FG uses |
Revision as of 19:58, 30 May 2020
VirtualPlanetBuilder (VPB) is an OSG tool that generates native OSG data to represent terrain, usually by draping a GEO-TIFF over an elevation model.
Building VirtualPlanetBuilder
The VPB project and code can be found here: https://github.com/openscenegraph/VirtualPlanetBuilder
If you've got an existing FlightGear build, there are some additional dependencies:
- OSG
- Including NVTT. ('sudo apt-get install libnvtt-dev' - oddly VPB builds without it but then checks for the shared library at runtime...)
- GDAL (https://gdal.org/)
- ... which requires PROJ 6 or above (https://proj.org/)
- ... which requires the sqlite3.11 or above development package (on linux - 'sudo apt-get install libsqlite3-dev')
- ... which requires PROJ 6 or above (https://proj.org/)
Note that GDAL and PROJ do not use cmake, so it builds in the source directory as follows:
./configure -prefix=/path/to/install make
VPB is built using cmake e.g.
cmake -DOSG_DIR=/path/to/OSG/install /path/to/VPB/src make
Getting Landcover Data
For CORINE data covering Europe, try here: https://land.copernicus.eu/pan-european/corine-land-cover/clc2018
Choose RASTER data, which will download a geo-referenced TIF image.
Getting DEM data.
For SRTM, try here: http://srtm.csi.cgiar.org/
Again, Raster data is fine.
Running VPB
Here are the options I've used:
./bin/osgdem --geocentric -t /home/stuart/FlightGear/VPB/data/CORINE/u2018_clc2018_v2020_20u1_raster100m/DATA/U2018_CLC2018_V2020_20u1.tif -d /home/stuart /FlightGear/VPB/data/SRTM90/srtm_36_01.tif -e -5 54 -2 56 --PagedLOD -l 5 --RGB-24 -o foo.osgb
- --geocentric because that's what FG uses
- --PagedLOD to generate PagedLOD nodes
- -l 5 the number of LOD levels to generate
- -t the texture to drape (in this case CORINE)
- -d the DEM to use (in this case a piece of SRTM90)
- -e is the extents in decimal degrees: LON1 LAT1 LON2 LAT2
- --RGB-24 to user an RGB output texture
- -o is the output file, in this case native OSG binary format.