- Import a scanned map image. To save processing later you might want to mask out obvious text and other noise in a paint program first.
r.in.gdal
- georectify map using GUI georectifier or i.points + i.rectify
- switch to in target location
- we now have a registered raster map containing a 300 dpi scan of our A0 sized map
- check how many categories
r.info chart
g.region rast=chart
d.mon x0
d.rast chart
d.what.rast
- make a reclass map, with just the black lines
r.reclass in=chart out=chart_black << EOF
1 = 1 black
EOF
- thin the lines to be 1 pixel wide
r.thin in=chart_black out=chart_black.thinned
- convert raster lines to vector lines
r.to.vect -s in=chart_black.thinned out=chart_lines
- remove any dangles smaller than 1km
v.clean in=chart_lines out=chart_lines_cleaned tool=rmdangle thresh=1000
v.build.polylines -q in=chart_lines_cleaned out=chart_polyline
- add category numbers to lines
v.category in=chart_polyline out=chart_polyline_cat type=line
- create a DB table to hold line length values
v.db.addtable chart_polyline_cat columns="length_km DOUBLE PRECISION"
- upload line lengths to DB table
v.to.db chart_polyline_cat type=line option=length units=k column=length_km
- extract line features longer than 5km (cleans out the noise)
v.extract in=chart_polyline_cat out=chart_lines_5km type=line where="length_km > 5"
- display result over raster chart
d.vect chart_lines_5km color=red width=2
v.out.ogr in=chart_lines_5km dsn=chart_lines_gt5km
qgis chart_lines_gt5km/chart_lines_5km_crop.shp