Coordinate Operations¶
Coordinate operations are used to convert coordinates from a source CRS to a target CRS.
If source and target CRSs are refered to a different datum, a datum transform has to be applied. Datum transforms are not exact, they are determined empirically. For the same pair of CRS, there can be many datum transforms and versions, each one with its own domain of validity and an associated transform error. Given a CRS pair, GeoServer will automatically pick the most accurate datum transform from the EPSG database, unless a custom operation is declared.
Coordinate operations can be queried and tested using the Reprojection Console.
To enable higher accuracy Grid Shift transforms, see Add Grid Shift Transform files.
See Define a custom Coordinate Operation to declare new operations. Custom operations will take precedence over the EPSG ones.
Reprojection Console¶
The reprojection console (available in Demos) lets you quickly test coordinate operations. Use it to convert a single coordinate or WKT geometry, and to see the operation details GeoServer is using. It is also useful to learn by example when you have to Define a custom Coordinate Operation.
Read more about the Reprojection console.
Add Grid Shift Transform files¶
GeoServer supports NTv2 and NADCON grid shift transforms. Grid files are not shipped out with GeoServer. They need to be downloaded, usually from yor National Mapping Agency website.
Warning
Grid Shift files are only valid in the specific geographic domain for which they where made; trying to transform coordinates outside this domain will result in no trasformation at all. Make sure that the Grid Shift files are valid in the area you want to transform.
Search for the Grid File Name(s) int the tables below, which are extracted from EPSG version 7.9.0. If you need to use a Grid Shift transform not declared in EPSG, you will need to Define a custom Coordinate Operation.
Get the Grid File(s) from your National Mapping Agency (NTv2) or the US National Geodetic Survey (NADCON).
Copy the Grid File(s) in the
user_projections
directory inside your data directory.Use the Reprojection Console to test the new transform.
List of available Grid Shift transforms¶
The list of Grid Shift transforms declared in EPSG version 7.9.0 is:
NTv2¶
Source CRS |
Target CRS |
Grid File Name |
Source Info |
---|---|---|---|
4122 |
4326 |
NB7783v2.gsb |
OGP |
4122 |
4326 |
NS778301.gsb |
OGP |
4122 |
4326 |
PE7783V2.gsb |
OGP |
4122 |
4617 |
NB7783v2.gsb |
New Brunswick Geographic Information Corporation land and water information standards manual. |
4122 |
4617 |
NS778301.gsb |
Nova Scotia Geomatics Centre - Contact aflemmin@linux1.nsgc.gov.ns.ca or telephone 902-667-6409 |
4122 |
4617 |
PE7783V2.gsb |
PEI Department of Transportation & Public Works |
4149 |
4150 |
CHENyx06a.gsb |
Bundesamt für Landestopografie swisstopo; www.swisstopo.ch |
4149 |
4151 |
CHENyx06_ETRS.gsb |
Bundesamt für Landestopografie swisstopo; www.swisstopo.ch |
4149 |
4258 |
CHENyx06_ETRS.gsb |
Bundesamt für Landestopografie swisstopo; www.swisstopo.ch |
4149 |
4326 |
CHENyx06_ETRS.gsb |
IOGP |
4171 |
4275 |
rgf93_ntf.gsb |
ESRI |
4202 |
4283 |
A66 National (13.09.01).gsb |
GDA Technical Manual. http://www.icsm.gov.au/gda |
4202 |
4283 |
SEAust_21_06_00.gsb |
Office of Surveyor General Victoria; http://www.land.vic.gov.au/ |
4202 |
4283 |
nt_0599.gsb |
GDA Technical Manual. http://www.icsm.gov.au/gda |
4202 |
4283 |
tas_1098.gsb |
|
4202 |
4283 |
vic_0799.gsb |
Office of Surveyor General Victoria; http://www.land.vic.gov.au/ |
4202 |
4326 |
A66 National (13.09.01).gsb |
OGP |
4203 |
4283 |
National 84 (02.07.01).gsb |
GDA Technical Manual. http://www.icsm.gov.au/gda |
4203 |
4283 |
wa_0700.gsb |
Department of Land Information, Government of Western Australia; http://www.dola.wa.gov.au/ |
4203 |
4326 |
National 84 (02.07.01).gsb |
OGP |
4207 |
4258 |
DLx_ETRS89_geo.gsb |
Instituto Geografico Portugues; http://www.igeo.pt |
4225 |
4326 |
CA7072_003.gsb |
OGP |
4225 |
4674 |
CA7072_003.gsb |
IBGE. |
4230 |
4258 |
100800401.gsb |
Geodesy Unit, Cartographic Institute of Catalonia (ICC); http://www.icc.cat |
4230 |
4258 |
SPED2ETV2.gsb |
Instituto Geográfico Nacional, www.cnig.es |
4230 |
4326 |
SPED2ETV2.gsb |
OGP |
4258 |
4275 |
rgf93_ntf.gsb |
OGP |
4267 |
4269 |
NTv2_0.gsb |
http://www.geod.nrcan.gc.ca/products/html-public/GSDapps/English/NTv2_Fact_Sheet.html |
4267 |
4269 |
QUE27-83.gsb |
Geodetic Service of Quebec. Contact alain.bernard@mrn.gouv.qc.ca |
4267 |
4326 |
NTv2_0.gsb |
OGP |
4267 |
4326 |
QUE27-98.gsb |
OGP |
4267 |
4326 |
SK27-98.gsb |
OGP |
4267 |
4617 |
NB2783v2.gsb |
“Generation of a NAD27-NAD83(CSRS) NTv2-type Grid Shift File for New Brunswick”, Marcelo C. Santos and Carlos A. Garcia, Department of Geodesy and Geomatics Engineering, University of New Brunswick, October, 2011 via Service New Brunswick. |
4267 |
4617 |
QUE27-98.gsb |
Geodetic Service of Quebec. Contact alain.bernard@mrn.gouv.qc.ca |
4267 |
4617 |
SK27-98.gsb |
Dir Geodetic Surveys; SaskGeomatics Div.; Saskatchewan Property Management Company. |
4269 |
4326 |
AB_CSRS.DAC |
OGP |
4269 |
4326 |
NAD83-98.gsb |
OGP |
4269 |
4326 |
SK83-98.gsb |
OGP |
4269 |
4617 |
AB_CSRS.DAC |
Geodetic Control Section; Land and Forest Svc; Alberta Environment; http://www3.gov.ab.ca/env/land/dos/ |
4269 |
4617 |
NAD83-98.gsb |
Geodetic Service of Quebec. Contact alain.bernard@mrn.gouv.qc.ca |
4269 |
4617 |
SK83-98.gsb |
Dir Geodetic Surveys; SaskGeomatics Div.; Saskatchewan Property Management Company. |
4272 |
4167 |
nzgd2kgrid0005.gsb |
Land Information New Zealand: LINZS25000 Standard for New Zealand Geodetic Datum 2000; 16 November 2007. |
4272 |
4326 |
nzgd2kgrid0005.gsb |
OGP |
4274 |
4258 |
D73_ETRS89_geo.gsb |
Instituto Geografico Portugues; http://www.igeo.pt |
4277 |
4258 |
OSTN02_NTv2.gsb |
Ordnance Survey of Great Britain, http://www.gps.gov.uk |
4277 |
4258 |
OSTN15_NTv2_OSGBtoETRS.gsb |
Ordnance Survey of Great Britain. |
4277 |
4326 |
OSTN02_NTv2.gsb |
OGP |
4277 |
4326 |
OSTN15_NTv2_OSGBtoETRS.gsb |
IOGP |
4283 |
7844 |
COCOS_C_V1.gsb |
GDA2020 Technical Manual (http://www.icsm.gov.au) |
4283 |
7844 |
GDA94_GDA2020_conformal.gsb |
GDA2020 Technical Manual and ICSM Datum Technical Fact Sheet TN1 (http://www.icsm.gov.au). |
4283 |
7844 |
GDA94_GDA2020_conformal_and_distortion.gsb |
GDA2020 Technical Manual and ICSM Datum Technical Fact Sheet TN1 (http://www.icsm.gov.au). |
4283 |
7844 |
XMAS_C_V1.gsb |
GDA2020 Technical Manual (http://www.icsm.gov.au). |
4289 |
4258 |
rdtrans2008.gsb |
Kadaster and Rijkswaterstaat CIV, working together under the name RDNAP. |
4300 |
4258 |
tm75_etrs89.gsb |
ESRI Ireland. |
4300 |
4326 |
tm75_etrs89.gsb |
OGP |
4301 |
4612 |
tky2jgd.gsb |
ESRI |
4301 |
6668 |
tky2jgd.gsb |
OGP |
4312 |
4258 |
AT_GIS_GRID.gsb |
Federal Office of Metrology and Surveying (BEV); http://www.bev.gv.at |
4313 |
4258 |
bd72lb72_etrs89lb08.gsb |
IGN Brussels www.ngi.be |
4314 |
4258 |
BETA2007.gsb |
BKG via EuroGeographics http://crs.bkg.bund.de/crs-eu/ |
4314 |
4326 |
BETA2007.gsb |
OGP |
4326 |
4275 |
rgf93_ntf.gsb |
OGP |
4608 |
4269 |
May76v20.gsb |
Geodetic Survey of Canada http://www.geod.nrcan.gc.ca/ |
4608 |
4326 |
May76v20.gsb |
OGP |
4609 |
4269 |
CGQ77-83.gsb |
Geodetic Service of Quebec. Contact alain.bernard@mrn.gouv.qc.ca |
4609 |
4326 |
CGQ77-98.gsb |
OGP |
4609 |
4617 |
CGQ77-98.gsb |
Geodetic Service of Quebec. Contact alain.bernard@mrn.gouv.qc.ca |
4612 |
6668 |
touhokutaiheiyouoki2011.gsb |
ESRI |
4618 |
4326 |
SAD69_003.gsb |
OGP |
4618 |
4674 |
SAD69_003.gsb |
IBGE. |
4745 |
4258 |
NTv2_SN.gsb |
Saxony State Spatial Data and Land Survey Corporation (GeoSN). |
4745 |
4326 |
BETA2007.gsb |
OGP |
4746 |
4326 |
BETA2007.gsb |
OGP |
4749 |
4644 |
RGNC1991_NEA74Noumea.gsb |
ESRI |
4749 |
4662 |
RGNC1991_IGN72GrandeTerre.gsb |
ESRI |
5524 |
4326 |
CA61_003.gsb |
OGP |
5524 |
4674 |
CA61_003.gsb |
IBGE. |
5527 |
4326 |
SAD96_003.gsb |
OGP |
5527 |
4674 |
SAD96_003.gsb |
IBGE. |
NADCON¶
Source CRS |
Target CRS |
Version |
Latitude shift file |
Longitude shift file |
---|---|---|---|---|
4135 |
4269 |
NGS-Usa HI |
hawaii.las |
hawaii.los |
4136 |
4269 |
NGS-Usa AK StL |
stlrnc.las |
stlrnc.los |
4137 |
4269 |
NGS-Usa AK StP |
stpaul.las |
stpaul.los |
4138 |
4269 |
NGS-Usa AK StG |
stgeorge.las |
stgeorge.los |
4139 |
4269 |
NGS-PRVI |
prvi.las |
prvi.los |
4169 |
4152 |
NGS-Asm E |
eshpgn.las |
eshpgn.los |
4169 |
4152 |
NGS-Asm W |
wshpgn.las |
wshpgn.los |
4267 |
4269 |
NGS-Usa AK |
alaska.las |
alaska.los |
4267 |
4269 |
NGS-Usa Conus |
conus.las |
conus.los |
4269 |
4152 |
NGS-Usa AL |
alhpgn.las |
alhpgn.los |
4269 |
4152 |
NGS-Usa AR |
arhpgn.las |
arhpgn.los |
4269 |
4152 |
NGS-Usa AZ |
azhpgn.las |
azhpgn.los |
4269 |
4152 |
NGS-Usa CA n |
cnhpgn.las |
cnhpgn.los |
4269 |
4152 |
NGS-Usa CO |
cohpgn.las |
cohpgn.los |
4269 |
4152 |
NGS-Usa CA s |
cshpgn.las |
cshpgn.los |
4269 |
4152 |
NGS-Usa ID MT e |
emhpgn.las |
emhpgn.los |
4269 |
4152 |
NGS-Usa TX e |
ethpgn.las |
ethpgn.los |
4269 |
4152 |
NGS-Usa FL |
flhpgn.las |
flhpgn.los |
4269 |
4152 |
NGS-Usa GA |
gahpgn.las |
gahpgn.los |
4269 |
4152 |
NGS-Usa HI |
hihpgn.las |
hihpgn.los |
4269 |
4152 |
NGS-Usa IA |
iahpgn.las |
iahpgn.los |
4269 |
4152 |
NGS-Usa IL |
ilhpgn.las |
ilhpgn.los |
4269 |
4152 |
NGS-Usa IN |
inhpgn.las |
inhpgn.los |
4269 |
4152 |
NGS-Usa KS |
kshpgn.las |
kshpgn.los |
4269 |
4152 |
NGS-Usa KY |
kyhpgn.las |
kyhpgn.los |
4269 |
4152 |
NGS-Usa LA |
lahpgn.las |
lahpgn.los |
4269 |
4152 |
NGS-Usa DE MD |
mdhpgn.las |
mdhpgn.los |
4269 |
4152 |
NGS-Usa ME |
mehpgn.las |
mehpgn.los |
4269 |
4152 |
NGS-Usa MI |
mihpgn.las |
mihpgn.los |
4269 |
4152 |
NGS-Usa MN |
mnhpgn.las |
mnhpgn.los |
4269 |
4152 |
NGS-Usa MO |
mohpgn.las |
mohpgn.los |
4269 |
4152 |
NGS-Usa MS |
mshpgn.las |
mshpgn.los |
4269 |
4152 |
NGS-Usa NE |
nbhpgn.las |
nbhpgn.los |
4269 |
4152 |
NGS-Usa NC |
nchpgn.las |
nchpgn.los |
4269 |
4152 |
NGS-Usa ND |
ndhpgn.las |
ndhpgn.los |
4269 |
4152 |
NGS-Usa NewEng |
nehpgn.las |
nehpgn.los |
4269 |
4152 |
NGS-Usa NJ |
njhpgn.las |
njhpgn.los |
4269 |
4152 |
NGS-Usa NM |
nmhpgn.las |
nmhpgn.los |
4269 |
4152 |
NGS-Usa NV |
nvhpgn.las |
nvhpgn.los |
4269 |
4152 |
NGS-Usa NY |
nyhpgn.las |
nyhpgn.los |
4269 |
4152 |
NGS-Usa OH |
ohhpgn.las |
ohhpgn.los |
4269 |
4152 |
NGS-Usa OK |
okhpgn.las |
okhpgn.los |
4269 |
4152 |
NGS-Usa PA |
pahpgn.las |
pahpgn.los |
4269 |
4152 |
NGS-PRVI |
pvhpgn.las |
pvhpgn.los |
4269 |
4152 |
NGS-Usa SC |
schpgn.las |
schpgn.los |
4269 |
4152 |
NGS-Usa SD |
sdhpgn.las |
sdhpgn.los |
4269 |
4152 |
NGS-Usa TN |
tnhpgn.las |
tnhpgn.los |
4269 |
4152 |
NGS-Usa UT |
uthpgn.las |
uthpgn.los |
4269 |
4152 |
NGS-Usa VA |
vahpgn.las |
vahpgn.los |
4269 |
4152 |
NGS-Usa WI |
wihpgn.las |
wihpgn.los |
4269 |
4152 |
NGS-Usa ID MT w |
wmhpgn.las |
wmhpgn.los |
4269 |
4152 |
NGS-Usa OR WA |
wohpgn.las |
wohpgn.los |
4269 |
4152 |
NGS-Usa TX w |
wthpgn.las |
wthpgn.los |
4269 |
4152 |
NGS-Usa WV |
wvhpgn.las |
wvhpgn.los |
4269 |
4152 |
NGS-Usa WY |
wyhpgn.las |
wyhpgn.los |
4675 |
4152 |
NGS-Gum |
guhpgn.las |
guhpgn.los |
8351 |
4156 |
UGKK-Svk |
Slovakia_JTSK03_to_JTSK.LAS.las |
Slovakia_JTSK03_to_JTSK.LAS.los |
8351 |
4156 |
UGKK-Svk |
Slovakia_JTSK03_to_JTSK.LOS.las |
Slovakia_JTSK03_to_JTSK.LOS.los |
Define a custom Coordinate Operation¶
Custom Coordinate Operations are defined in epsg_operations.properties
file. This file has to be placed into the user_projections
directory, inside your data directory (create it if it doesn’t exist).
Each line in epsg_operations.properties
will describe a coordinate operation consisting of a source CRS, a target CRS, and a math transform with its parameter values. Use the following syntax:
<source crs code>,<target crs code>=<WKT math transform>
Math transform is described in Well-Known Text syntax. Parameter names and value ranges are described in the EPSG Geodetic Parameter Registry.
Note
Use the Reprojection Console to learn from example and to test your custom definitions.
Examples¶
Custom NTv2 file:
4230,4258=PARAM_MT["NTv2", \
PARAMETER["Latitude and longitude difference file", "100800401.gsb"]]
Geocentric transformation, preceded by an ellipsoid to geocentric conversion, and back geocentric to ellipsoid. The results is a concatenation of three math transforms:
4230,4258=CONCAT_MT[ \
PARAM_MT["Ellipsoid_To_Geocentric", \
PARAMETER["dim", 2], \
PARAMETER["semi_major", 6378388.0], \
PARAMETER["semi_minor", 6356911.9461279465]], \
PARAM_MT["Position Vector transformation (geog2D domain)", \
PARAMETER["dx", -116.641], \
PARAMETER["dy", -56.931], \
PARAMETER["dz", -110.559], \
PARAMETER["ex", 0.8925078166311858], \
PARAMETER["ey", 0.9207660950870382], \
PARAMETER["ez", -0.9166407989620964], \
PARAMETER["ppm", -3.5200000000346066]], \
PARAM_MT["Geocentric_To_Ellipsoid", \
PARAMETER["dim", 2], \
PARAMETER["semi_major", 6378137.0], \
PARAMETER["semi_minor", 6356752.314140356]]]
You can make use of existing grid shift files such as this explicit transformation from NAD27 to WGS84 made up of a NADCON transform from NAD27 to NAD83 followed by a Molodenski transform converting from the GRS80 Ellipsoid (used by NAD83) to the WGS84 Ellipsoid:
4267,4326=CONCAT_MT[ \
PARAM_MT["NADCON", \
PARAMETER["Latitude difference file", "conus.las"], \
PARAMETER["Longitude difference file", "conus.los"]], \
PARAM_MT["Molodenski", \
PARAMETER["dim", 2], \
PARAMETER["dx", 0.0], \
PARAMETER["dy", 0.0], \
PARAMETER["dz", 0.0], \
PARAMETER["src_semi_major", 6378137.0], \
PARAMETER["src_semi_minor", 6356752.314140356], \
PARAMETER["tgt_semi_major", 6378137.0], \
PARAMETER["tgt_semi_minor", 6356752.314245179]]]
Affine 2D transform operating directly in projected coordinates:
23031,25831=PARAM_MT["Affine", \
PARAMETER["num_row", 3], \
PARAMETER["num_col", 3], \
PARAMETER["elt_0_0", 1.0000015503712145], \
PARAMETER["elt_0_1", 0.00000758753979846734], \
PARAMETER["elt_0_2", -129.549], \
PARAMETER["elt_1_0", -0.00000758753979846734], \
PARAMETER["elt_1_1", 1.0000015503712145], \
PARAMETER["elt_1_2", -208.185]]
Each operation can be described in a single line, or can be split in several lines for readability, adding a backslash “" at the end of each line, as in the former examples.