Provided by: grass-doc_7.8.7-1_all
NAME
v.lrs.create - Creates a linear reference system.
KEYWORDS
vector, linear reference system, network
SYNOPSIS
v.lrs.create v.lrs.create --help v.lrs.create in_lines=name out_lines=name [err=name] points=name [llayer=string] [player=string] lidcol=string pidcol=string [start_mp=string] [start_off=string] [end_mp=string] [end_off=string] [rsdriver=string] [rsdatabase=string] rstable=string [threshold=float] [--overwrite] [--help] [--verbose] [--quiet] [--ui] Flags: --overwrite Allow output files to overwrite existing files --help Print usage summary --verbose Verbose module output --quiet Quiet module output --ui Force launching GUI dialog Parameters: in_lines=name [required] Name of input vector map Input vector map containing lines out_lines=name [required] Output vector map where oriented lines are written err=name Output vector map of errors points=name [required] Name of input vector map Input vector map containing reference points llayer=string Layer number or name Line layer Default: 1 player=string Layer number or name Point layer Default: 1 lidcol=string [required] Column containing line identifiers for lines pidcol=string [required] Column containing line identifiers for points start_mp=string Column containing milepost position for the beginning of next segment Default: start_mp start_off=string Column containing offset from milepost for the beginning of next segment Default: start_off end_mp=string Column containing milepost position for the end of previous segment Default: end_mp end_off=string Column containing offset from milepost for the end of previous segment Default: end_off rsdriver=string Driver name for reference system table Options: dbf, mysql, odbc, ogr, pg, sqlite Default: sqlite rsdatabase=string Database name for reference system table Default: $GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db rstable=string [required] Name of table where the reference system will be written New table is created by this module threshold=float Maximum distance of point to line allowed Default: 1
DESCRIPTION
v.lrs.create generates a LRS (Linear Reference System) from vector line and point data. It is highly recommended to work with polylines instead of segmented vector lines. The command v.build.polylines creates this map structure.
NOTES
The mileposts (point) vector map columns start_mp, start_off, end_mp, end_off must be of ’double precision’ type. For milepost ordering, it is sufficient to enter increasing numbers into the start_mp column indicating the order along the vector line. The lidcol and pidcol columns contain the line IDs which relate mileposts and vector line(s) to each other. When creating a LRS with this module, any existing rstable will be replaced.
EXAMPLE
This example is written for the Spearfish dataset. As first step, bus route data are prepared. # break into segments for correct route selection v.clean roads_net out=busroute_tmp tool=break # make polyline for easier line selection by coordinate pairs v.build.polylines busroute_tmp out=busroute_tmp2 # reverse delete: reduce route map to bus route (enter in one line) v.edit -r busroute_tmp2 tool=delete coords=590273,4927304,\ 590346,4927246,590414,4927210,590438,4927096,590468,4926966,\ 590491,4926848,590566,4926798,590637,4926753,590701,4926698,\ 590830,4926726,590935,4926751,590993,4926830,590972,4926949,\ 590948,4927066,590922,4927182,590957,4927251 threshold=5 # vector line needs to be polyline v.build.polylines busroute_tmp2 out=busroute_tmp3 v.category busroute_tmp3 out=busroute op=add g.remove -f type=vector name=busroute_tmp,busroute_tmp2,busroute_tmp3 The result can be visualized: g.region vector=busroute n=n+100 s=s-100 w=w-100 e=e+100 d.mon x0 d.vect roads_net d.vect busroute col=red width=2 The vector map ’busroute’ needs have an attribute table which contain an integer column lidcol with value be ’22’ for this example (bus route): v.db.addtable busroute col="lid integer" v.db.update busroute col=lid value=22 v.db.select busroute cat|lid 1|22 A new point map ’busstops’ shall contain mileposts (bus stops) along this line (use thresh to define maximal accepted deviation from this line): # generate points map echo "590263|4927361 590432|4927120 590505|4926776 590660|4926687 590905|4926742 590972|4926949 591019|4927263" | v.in.ascii out=busstops d.vect busstops icon=basic/triangle col=blue d.vect busstops disp=cat lcol=blue The milepost attributes table needs to be created with specific columns: v.db.addtable busstops col="lid integer, start_mp double precision, \ start_off double precision, end_mp double precision, \ end_off double precision" v.db.update busstops col=lid value=22 Since the digitizing order of v.in.ascii above reflects the bus stop order along the route, we can simply copy the category number as milepost order number in column start_mp: v.db.update busstops col=start_mp qcol=cat # verify table v.db.select busstops cat|lid|start_mp|start_off|end_mp|end_off 1|22|1||| 2|22|2||| 3|22|3||| 4|22|4||| 5|22|5||| 6|22|6||| 7|22|7||| # visualize with start_mp to check order d.erase d.vect roads_net d.vect busroute col=red width=2 d.vect busstops icon=basic/triangle col=blue d.vect busstops disp=attr attrcol=start_mp lcol=blue Offsets (start_off, end_off) can be later used in case the route or mileposts get modified. As second step, the linear reference network is created: v.lrs.create busroute points=busstops out=route_lrs err=lrs_error \ lidcol=lid pidcol=lid rstable=route_lrs threshold=50 This creates the maps ’route_lrs’ containing the LRS and ’lrs_error’ containing the errors if any. The resulting LRS table and map can be shown: # show LRS table db.select table=route_lrs d.vect route_lrs col=blue width=2
SEE ALSO
LRS tutorial, Introducing the Linear Reference System in GRASS, v.build.polylines, v.lrs.segment, v.lrs.where, v.lrs.label
AUTHOR
Radim Blazek, ITC-irst/MPA Solutions Documentation update (based on above journal article and available fragments): Markus Neteler
SOURCE CODE
Available at: v.lrs.create source code (history) Accessed: unknown Main index | Vector index | Topics index | Keywords index | Graphical index | Full index © 2003-2022 GRASS Development Team, GRASS GIS 7.8.7 Reference Manual