By default the layer use EPSG:900913 and the coordinates are in meters. It looks like this: +init=epsg:4121 +proj=longlat +ellps=GRS80 +datum=GGRS87. Cadastre, engineering survey, topographic mapping (large scale). Specifically, a square of 0. Later that year, EPSG provided an updated identifier, EPSG:3857 with the official name "WGS 84 / Pseudo-Mercator". 4, PROJ 6. Transform coordinates for position on a map - converting latitude / longitude degrees. 555479), 5186), 1) This query gives me 32792923 rows which is all data in the table. Replaced by Xian 1980 / 3-degree Gauss-Kruger zone 37 (code 2361). 1. For cadastral purposes, replaces Kertau 1968 / Singapore Grid (CRS code 24500) from August 2004. Between 30°W and 24°W,. This can be referred to using the authority code "EPSG:4326". I am new to this topic myself, and when I had similar question, this is the best thing I have found. e. All the points are closely packed into a group like squares, so I would like to convert the lat,long points to meters so that I can plot it over the graph to see the variation in the heatmap. Latitude (φ - phi) is the angle between the equatorial plane and the straight line that. hence you area will in in km^2. EPSG:5675 Projected coordinate system for Czechia - between 13°30'E and 16°30'E. Not sure if this is part of the issue, but EPSG:4326 is WGS84 (lat/lons on a geoid) and is NOT Mercator. This roughly corresponds to 90 meter pixels. The code above works fine in this case. CRSEPSG:31370 Projected coordinate system for Belgium - onshore. –I switched from EPSG:4326 (world °) to EPSG:32662 (world meters),( tried 32662 and 4087 as well). Mexico. Download ZIP. Also found with truncated false easting - see Beijing 1954 / 3-degree Gauss-Kruger CM 114E (code 2435). Find a coordinate system and get position on a map. Depending on the jars you have on your CLASSPATH a range of authorities are available to define a coordinate. EPSG:3414 Projected coordinate system for Singapore - onshore and offshore. 5));. Is there a way to use degrees right a way without reprojecting them beforehand to meters? var p0 = new OpenLayers. Transforms coordinates of object to new projection. Coordinates on a map - pick GPS lat & long or coordinates in a projection system. Not used offshore in oil industry. spatial_ref_sys WHERE srid = 4326; returns UNIT s of type "degree". 782683 ). select * from users where st_dwithin (location, st_setsrid (st_point (126. Can anybody point to a good reference or a possible Ppython/C/C++/Java library source code for checking the math? ~ Converting latitude, longitude (epsg:4326) into EPSG:3857?A spatial reference system (SRS) or coordinate reference system (CRS) is a framework used to precisely measure locations on the surface of Earth as coordinates. An authority string (i. You must reproject your data into EPSG:4326 for getting degrees in WGS84. Notice how the scale stays the same!Reproject your data into some projected CS with metric units. 10 20 0 10 20 26. I have made a linestring with two points with coordinates : [ [0,0], [0,1000]] and calculated the distance using the vincenty formula. 000000197720465). You have coordinates measured in decimal degrees in an. g. Change the CRS of the DEM layer. Custom, user-created CRSs are stored in a user CRS database. 001 to find nearby points. 06) Lon(253457. Also found with truncated false easting - see Pulkovo 1995 / 3-degree Gauss-Kruger CM 126E (code 2734). Replaced by Xian 1980 / 3-degree Gauss-Kruger CM 75E (code 2370). example: make a one-degree unit square, in epsg 4326 and equirectangular > library(sf) Linking to GEOS 3. This is the result of the buffer as if I set it to 3 degrees across the whole planet!EPSG:3763 Projected coordinate system for Portugal - mainland - onshore. tif reprojected. 6922)I have a problem when converting from Korean 2000 Coordinates System (EPSG:5179) to Decimal Degree (EPSG:4326). Given an input like: lat, lon = 59. Starting with GDAL 3. (meters, feet). Replaced by Xian 1980 / 3-degree Gauss-Kruger CM 117E (code 2384). the CRS is EPSG:4269 - NAD83 - Geographic; the unit is in degrees; and I confirmed from a metafile somewhere that the height z axis is in meters; 3. 0. EPSG:4378) are based on an ellipsoid as they don't necessarily have the same centres. That doesn't change anything to my. The illustration below lists the WGS84 system with all its properties: EPSG code, Datum,. EPSG:4979 is also based on the WGS84 ellipsoid, and differs from EPSG:4326 only in that it uses a 3D coordinate system, whereas 4326 uses a 2D coordinate system. Türkiye (Turkey). From what I read, to change the unit from degrees to meters I need to change my CRS. Truncated form of Beijing 1954 / 3-degree Gauss-Kruger zone 25 (code 2401). Replaced by Xian 1980 / 3-degree Gauss-Kruger zone 39 (code 2363). projOut = pyproj. Area of use: South Africa - east of 32°E. Hungary, Poland and Slovakia - east of 22°30'E. Coordinates represent location with respect to a specific coordinate reference system (CRS). 4142135623730951. 3857 in SQL Server uses Meters as its unit, 4326 uses decimal degrees. The original view (EPSG:3857) was following: After changing to CRS to. Similarly when I have changed the project CRS from EPSG:4326 to the recommended EPSG: 102033 (South America Albers Equal Area Conic), it still doesn't seem to fix the problem. select st_distance (st_setsrid (st_makepoint (126. epsg:4121 - ggrs87 EPSG:4326 - WGS 84 Greece - onshore. 4, PROJ 6. Used by the GPS satellite navigation system and for. EPSG:4326, also known as the WGS84 projection (because it’s based on WGS84’s ellipsoid), is a coordinate system used in Google Earth and GSP systems. Powered by EPSG database 10. The layer configs in Geoserver: native srs -. WGS84 (EPSG: 4326) ## Commonly used by organizations that provide GIS data for the entire globe or many countries. WGS 84 - WGS84 - World Geodetic System 1984, used in GPS - EPSG:4326 I have a global map with CRS WGS84-EPSG:4326 and I want to calculate the area of my polygons. CRS. coordinates are in decimal degrees (lat, lon)). Calculate geometry in decimal degrees from a point feature. Enter Meters: or Arc-Seconds: Enter Latitude: m km arc-seconds arc-minutes degrees Calculate Meters Calculate Arc-Seconds. Datum. Section 2. EPSG:32615) are specified in metres. Uses spherical development of ellipsoidal coordinates. Not used offshore in. – Rob Raymond. You can use the quick-and-dirty (yet fairly accurate) conversion described here. And then (optionally), extract the X/Y coordinates in degrees back into standard columns:Revision date: 2007-02-12. (2) Set Coordsys Window FrontWindow () (3) Update the columns in your table. EPSG:2414 Projected coordinate system for China - onshore between 112°30'E and 115°30'E. The equation from converting degrees to meters becomes: (3) L ( m) = r × π × α ( d e g) 180. I also tried the following line of code: UPDATE myTable2 SET geom. Horizontal component. ‘EPSG:4326’, which has the following alias ‘WGS84’ ‘EPSG:4269’ ‘EPSG:3857’, which has the following aliases ‘EPSG:3785’ ‘GOOGLE’ ‘EPSG:900913’ ‘EPSG:102113’ Defined projections can also be accessed through the proj4. To change Reference System of your project, click on the EPSG:4326 label on the bottom right of the QGIS window, and select a projected system. EPSG:2635 Projected coordinate system for Russian Federation - onshore between 175°30'E and 178°30'E. In order to get the buffer zone in meters. Truncated form of Pulkovo 1942 / 3-degree Gauss-Kruger zone 26 (code 2542). So the correct transformed coordinate would be: (56. 970769, 37. There is no exact conversion to meters from 4326 degrees. Second polygon data: 100% polygon data in EPSG:4326. 5184195, -104. I'm having a bit of trouble with projecting a DataFrame in GeoPandas from EPSG:4326 to EPSG:3857 in a notebook. The good news is that you only need to change the "inside" from "+init=epsg:4326" to "EPSG:4326" in the sp::CRS() function and things should work as previously as long as you do not use the sp::proj4string() functionCreate Vector Grid in Meters with EPSG:3857. . 846255)] (longitude,latitude) on the earth, I take the GeoSeries. for the need of buffer in meters, I saved the file using "save as" option and saved it as "esri shapefile", where i changed the CRS to NAD 83/Maryland, EPSG:26985. 5818088) (lat, lon) –Scope: Geodesy. Engineering survey, topographic mapping. To do this conversion programmatically, other SO questions will help. I am using the JTS from vividsolutions. The UTM32N one has square pixels in UTM32N, measured in meters (60x60m), and each pixel has the same area. This is quite exact. With the changed. Cadastre, engineering survey, topographic mapping (large and medium scale). Knowing this is not mathematically possible I'm accepting the following limitations: Poles don't need coverage - from lat -75 to lat 75 is sufficient. I have a shapefile that is currently in WGS84/UTM zone 19S. Defined as exact. projected_area. However, the geography type only supports. A slight confusion might come out of the fact that both 4326 and 3857 are in degrees, so the "right & proper" approach should in theory be: streets_import %>% st. Once you find the page associated with your CRS of interest you can then look at all of the various formats associated with that CRS: EPSG 4326 - WGS84 geographic. io: Area of use: Europe between 6°E and 12°E: Austria; Belgium; Denmark - onshore and offshore; Germany - onshore and offshore;. 8230, 22. EPSG:4326 and IGNF:WGS84G It looks like both of them do not fit because of the map distorted in both cases. to_crs() method that will do the reprojection quickly. e. txt file with some x, y coordinates that I assume are in EPSG:25831. EPSG:9707 Compound coordinate system for World. Transforms coordinates of object to new projection. EPSG code 4326 that we have here, belongs to the WGS84 coordinate system (i. 24081m. Recommended solution since pyproj 2. Orientations: north, east. – Messypuddlethe CRS you have selected is epsg. 345' S becomes here -10° 1' 2. Pixel size and pixel spacing are used interchangeably, as the concept of overlapping pixels is generally ignored. 39 -20,048,966. Porting any of those code fragments to. EPSG:2415 Projected coordinate system for China - onshore between 115°30'E and 118°30'E. The default CRS is set to EPSG:4326 – WGS 84, for both layer and the project (checked in bottom right), and unit is thus in degrees. So clearly, PostGIS (or pgAdmin) expect my data as long/lat, instead of lat/long. 454361,38. (Apparently these are approximations, but they're supposed to be pretty good. You can do this using the EarthExplorer portal. WGS 84 is most commonly used to describe the. To calculate this distance the vertex coordinates themselves are not needed, just two orthogonal sides (0. This means that the combination of GEOMETRY and EPSG:4326 is pretty much useless if you want to work with distances. proj_create_operations: Source and target ellipsoid do not belong to the same >celestial body. 2768485) B) Lat(6250962. PROJ or PROJ. io/4269 which means the co-ordinates will be expressed in degrees and for accuracy should be in North America. Hi @MichaelDelgado, you are correct I want Lat/ Lon in degrees, so it will be EPSG:4326 is WGS84 (lat/lons on a geoid). Changing the projection of the map to EPSG:4326 and then saving the layer as CSV worked. 463557),. This is easily the most common use for the CRS class: import org. EPSG:4326 is in degrees - 3D sphere; EPSG:3857 is in metres - 2D projection; If I say Paris is: A) Lat(48. projOut = pyproj. PS: EPSG:4326 is using degrees as units, try the EPSG:3857 which uses meters as unit or if you know the location of your polygons choose a projection from a national grid It's confusing when an API says it uses SRID 3857 but gives a location using SRID 4326. Current CRS is EPSG:3857. 3 364110 4110007 (corner) M1. 39 20,048,966. 00"N and lower ones 88d12' 0. I want to change the axis into decimal degrees. Since the WGS84 Reference System is not projected, it uses geographical coordinates (lat and long) which are expressed in degrees. For applications with an accuracy of better than 1m replaced by NAD83 (HARN) in the US and PRVI and by NAD83 (CSRS) in Canada. e. Any formal standard CRS is composed by ellipsoid parametrized model reference + datum reference. Cadastre, engineering survey, topographic mapping (large scale). for my project I used ProjectedCoordinateSystem. Specially, we’ll go from the original coordinate reference system (UTM) to the one used by google maps (EPSG:4326). EPSG:4258 - ETRS89. And this is the query : > select * from theuser where ST_DWithin (point , ST_GeomFromText ('POINT (120. I suspect that I'm supposed to change the scale value in reproject(crs, crsTransform, scale), but this value is supposed to be set in meters, which. 989276315832508e-07 9. Example of one coordinate: x= 539746,19 y= 4743262,723 I know that I. For example, if I have an SF data frame that uses the WGS84 co-ordinate reference system (EPSG:4326), I would like to be able to determine that the co-ordinates are specified in decimal degrees. I’ve tried several:2. geopandas can accept anything accepted by pyproj. Print the first two rows again. As an example, Pixel height will be essentially constant (it is constant on a sphere and approximately so, to a fraction of a percent variation, on the WGS84 ellipsoid). Projection('EPSG:4326')}, true);No transform is available between EPSG:4326 - WGS 84 and Unknown CRS: GEOGCRS["unknown",DATUM["unknown",ELLIPSOID["unkno…. For cadastral purposes, replaces Kertau 1968 / Singapore Grid (CRS code 24500) from August 2004. Even though there is an answer to my question How to create an accurate buffer of 5 miles around a coordinate in python?, but I can not represent it. Depending on the jars you have on your CLASSPATH a range of authorities are available to define a coordinate. Then it compute the distance between the original point and this new point to get the number of meters for 1 degree, so 1 degree / number of meters gives you the number of degrees for 1 meter, see the SQL comments for the unit. , Albers Equal Area). 9586 They fetch data by using this bbox: 13761899,35886447,13779795,35898097 If I try to get a similar bbox by using. EPSG:5270 Projected coordinate system for Türkiye (Turkey) - between 28°30'E and 31°30'E, onshore. I have two points on a EPSG:4326 layer. e. Just to note: EPSG 4326 is called a "Geographic" projection (mostly designated by latitude longitude numbers), to make real measurements you need a real projection. But you have to accept that a CRS can not be represented by. Thus putting the degree extent of the data as the corners as arguments for "a_ullr" puts the image basically at the Equator/PM intersection since -97 longitude is considered 97 meters west of the PM. However, this value decreases as you move toward the poles due to the Earth’s curvature. If you want to buffer in meters, you first need to reproject your Polygon and Linestring into a CRS that uses meters. 10 20,026,376. EPSG:2676 Projected coordinate system for Russian Federation - onshore between 124°30'E and 127°30'E. e. gdalwarp assumes that you have provided an orthorectified image. Degrees Minutes Seconds (WGS84) Lat: ° ' " (N) Attention! Since this converter calculates with negative north values instead of positive south values, you have to add a - to your degree value, if it contains the specification S. PS: EPSG:4326 is using degrees as units, try the EPSG:3857 which uses meters as unit or if you know the location of your polygons choose a projection from a national gridI have 50% polygon data in EPSG:25832. Transform Get position on a map. ETRS89 has no datum shift to EPSG:4326 WGS84 which you can get from GPS receivers, and all official cadastral. 9982 24. Starting with GDAL 3. An authority string (i. The input coordinates are given in EPSG:4326 as latitude and longitude. Truncated form of Pulkovo 1942 / 3-degree Gauss-Kruger zone 31 (code 2547). example: make a one-degree unit square, in epsg 4326 and equirectangular > library(sf) Linking to GEOS 3. EPSG:2422 Projected coordinate system for China - west of 76°30'E. 13 9. Method: Position Vector transformation (geog2D domain) Remarks: Transformation defines QND95. Quick way of telling what SRID your lat/lon is in: Look at how big the number & the precision. But after your question and MrXsquared's answer I try to change it to EPSG:4326 and my function worked. 8. Zone width 3 degrees. Data should not be permitted to exceed 3-4 degrees into neighboring zones; if it does, UTM is the wrong projection, and you should use a conic (e. Also found with truncated false easting - see Beijing 1954 / 3-degree Gauss-Kruger CM 111E (code 2434). The coordinates you posted are not the same coordinates between the two, you would have to convert the geometry to a 3857 geometry, or convert from the decimal degrees to meters. EPSG:4326 Geodetic coordinate system for World. EPSG:5270 TUREF / 3-degree Gauss-Kruger zone 10. I wonder what is the straightest way. The points and line string where in "epsg=4326" which I am assuming is. 06°N. Considering that the spatial data. What you can do (besides using geography type) is projecting your data into the "better" CRS than EPSG:4326 (i. After researching online and on stack exchange, I came up with a code. WGS 84 - WGS84 - World Geodetic System 1984, used in GPS - EPSG:4326. EPSG:2633 Projected coordinate system for Russian Federation - onshore between 169°30'E and 172°30'E. e. 575)'); Then I inspected the result in PGAdmin. 78098m, dY=-283. 1 > m = cbind(c(0,1,1,0,0),c(0,0,1,1,0)) > p1 = st_sfc(st_polygon(list(m)), crs=4326). The adjustment included connections to Greenland and Mexico but the system was not adopted there. For example, one of the most commonly used CRS is the WGS84 latitude-longitude projection. One degree from east to west at the equator is about 110 km, while at the polar circle it is about 38 km. 34 -20037508. 889635,. 90793274. distance method, but the method does not give me the right answer. import pyproj. Here is a photo of what I am seeing - the area seems to be in geographic degrees? The polygon is covering the greater part of a city block. EPSG:2413 Projected coordinate system for China - onshore between 109°30'E and 112°30'E. Similarly, I'd like to be able to determine that UTM co-ordinates (e. So maybe this version does a bit better job for fitting and cropping the result to valid area of EPSG:3857 but not at all perfect. Replaced by Xian 1980 / 3-degree Gauss-Kruger CM 117E (code 2384). Axes: westing, southing (Y,X). From the doc I know that res returns the (width, height) of pixels in the units of its coordinate reference system. decode("EPSG:4326"); The example above assumes you have gt-epsg-hsql jar on your CLASSPATH. The inverse transformation is done if the optional keyword inverse is set to True. Questions tagged [wgs84] WGS 84 (that spelling) is the name of an ellipsoid (EPSG::7030), the name of a geodetic coordinate reference system (EPSG::4326), and the alias of a datum (EPSG::6326), official name World Geodetic System 1984. Pixel size and pixel spacing are used interchangeably, as the concept of overlapping pixels is generally ignored. Cadastre, engineering survey, topographic mapping (large scale). 1353377°) Maybe your source coordinate is inaccurate because it is not in the area where the coordinate system is used. I have small points like these but they get enlarged as if I had set the projection to a lat/lon type. 62) I have 50% polygon data in EPSG:25832. 15. Replaced by Xian 1980 / 3-degree Gauss-Kruger CM 123E (code 2386). Projection(‘EPSG:4326’)(EPSG:4326 is our default projection). 0 5572242. EPSG:2413 Projected coordinate system for China - onshore between 109°30'E and 112°30'E. Neither the X nor Y dimension is fixed in planar units. Many systems use spherical trigonometry to calculate distances here. Engineering survey, topographic mapping. Running a WMS that. Pan around the map. g. Area of use: North America - onshore and. EPSG:4326 and IGNF:WGS84G It looks like both of them do not fit because of the map distorted in both cases. EPSG:31467 Projected coordinate system for Germany - former West Germany onshore between 7°30'E and 10°30'E - states of Baden-Wurtemberg, Bayern, Bremen, Hamberg, Hessen, Niedersachsen, Nordrhein-Westfalen, Rhineland-Pfalz, Schleswig-Holstein. How it can be, if the range of these coordinates is. e. 15. 9, -2. Calling a Basemap class instance with the arguments lon, lat will convert lon/lat (in degrees) to x/y map projection coordinates (in meters). I need to create vector grids with precise measurements in meters. Some of them are in the EPSG database (mostly those that are used for surveying), and they have an EPSG code number. Cadastre, engineering survey, topographic mapping (large scale). 0. Engineering survey, topographic mapping. EPSG:2056 Projected coordinate system for Liechtenstein; Switzerland. 0 m, code 8643 (default)Your output EPSG:32632 is WGS84/UTM 32N with units in meters. I use ol3 as a map service. For mapping at 1:25,000 scale and smaller use WGS 84 / UTM (CRS codes 4037-38). addOptions({ sphericalMercator: true, projection: new OpenLayers. 0. EPSG:2416 Projected coordinate system for China - onshore between 118°30'E and 121°30'E. Default is cyl . e. from pyproj import Proj, transform inProj = Proj("+init=EPSG:2263",preserve_units=True) outProj =. There are only entries for EPSG:2400,3006 and 4326. 25 The fact that the units of the CRS are meters (rather than degrees) tells us that this is a projected CRS: st_is_longlat(london_proj) now returns FALSE and. But when i made another linestring for example [ [4052627,3971934], [4052627,3972934. 15. Isle of Man onshore. Replaces NAD83(NSRS2007) / California zone 6 (CRS code 3499). Look Converting EPSG:2284 to EPSG:4326 with pyproj (and many others. This can be referred to using the authority code "EPSG:4326". io/6933. You have to provide the parameters explicitly, as shown here. Truncated form of Pulkovo 1942 / 3-degree Gauss-Kruger zone 57 (code 2574). EPSG-number 4326 that we have here belongs to the WGS84 coordinate system (i. EPSG:2398 Projected coordinate system for Czechia - west of 13°30'E. When step 3 is completed the Identify Results panel is no longer showing the coordinates in Decimal Degrees but in meters (except for the values under '(Derived)'. For applications with an accuracy of better than 1m replaced by NAD83 (HARN) in the US and PRVI and by NAD83 (CSRS) in Canada. EPSG:2425 Projected coordinate system for China - between 82°30'E and 85°30'E. Search Map Transform About. 1 degree° = 60 arc minutes ' 1 arc minute ' = 60 arc seconds '' 1 arc second '' at equatorial sea level = 1852m/60 = 30. EPSG:27700 Projected coordinate system for United Kingdom (UK) - offshore to boundary of UKCS within 49°45'N to 61°N and 9°W to 2°E; onshore Great Britain (England, Wales and Scotland). EPSG:3414 Projected coordinate system for Singapore - onshore and offshore. EPSG:2438 Projected coordinate system for China - onshore between 121°30'E and 124°30'E. How it can be, if the range of these coordinates is. I don't know, only you will know which actual Coordinate reference systems you have, and want to convert into, but EPSG:4326 is a degrees latitude/longitude CRS so you should expect the first value to be +/- 90 and second value +/-180, and your values 6133089. addOptions({ sphericalMercator: true, projection: new OpenLayers. 62)Select WGS 84 / NSIDC EASE-Grid 2. Replaced by Xian 1980 / 3-degree Gauss-Kruger zone 38 (code 2362). 001 to find nearby points. from_user_input(): CRS WKT string. How can I express my pixel size in meters? This converts decimal degrees to meters equivalent (or divide 111. Thank you! – Svorky. 39, 52. e. You can add any you need to that list or make your own. – Adriel Gomes Costa. Truncated form of Pulkovo 1995 / 3-degree Gauss-Kruger zone 11 (code 2645). You can't scale areas from degrees to hectares (square miles etc. EPSG:6893 Compound coordinate system for World. A four page cheat sheet about coordinate reference systems (CRSs), including projections, datums, and coordinate systems, and the use of these in R. PROJ. The units are degrees. I’ve tried several: 2. from pyproj import CRS crs3857 = CRS(3857) # Web Mercator crs4326 = CRS(4326) # WGS84 crs3857. To calculate the distance on the dataset in 4326, I assume that Qgis does some kind of re-projection in the background. It doesn't have to be exactly 1km, just that order of magnitude. from pyproj import Transformer transformer = Transformer. Cadastre, engineering survey, topographic mapping (large scale). pixel_size_x, pixel_size_y = dataset. Horizontal Coordinates: WGS84 [EPSG: 4326] Vertical Coordinates: WGS84 (EGM96 GEOID) [EPSG: 5171] Units: meter Data Selection Coordinates: Manually enter selection coordinates (in the horizontal coordinate system listed above) X min = Y min = X max = Y max = X min = Y min = X max = Y max = Validate coordinates and estimate area. When I create a vector I have to define the coordinates in meter. I'm trying to convert a dataset that has projection parameters in meters to lat/long coordinates. This converts decimal degrees to meters equivalent (or divide 111. i created a point layers of store locations and customers in Florida by given coordinates (WGS 84 EPSG: 4326). Introduced in 2000 as an alternative to CRS code 31300 to avoid the special projection method LCC (2SP Belgium) (code 9803). 37477m, dZ=+21. Now explicitly set the coordinate reference system to EPSG:3857 for art_dist_meters by using to_crs(). ここで、組織は「epsg」や「ignf」などの組織名であり、コードは特定のcrsに関連付けられた一意の番号です。 たとえば、一般的なWGS 84緯度/経度CRSは識別子「EPSG:4326」で知られており、Webマッピング標準CRSは「EPSG:3857」です。EPSG:2232 Projected coordinate system for United States (USA) - Colorado - counties Arapahoe; Chaffee; Cheyenne; Clear Creek; Delta; Denver; Douglas; Eagle; El Paso; Elbert; Fremont; Garfield; Gunnison; Jefferson; Kit Carson; Lake; Lincoln; Mesa; Park; Pitkin; Summit; Teller. crs. Geographical coordinates are not meant for area and distance calculations. Truncated form of Beijing 1954 / 3-degree Gauss-Kruger zone 39 (code 2415). 001 degrees across for EPSG:4326 vs. EPSG:31467 Projected coordinate system for Germany - former West Germany onshore between 7°30'E and 10°30'E - states of Baden-Wurtemberg, Bayern, Bremen, Hamberg, Hessen, Niedersachsen, Nordrhein-Westfalen, Rhineland-Pfalz, Schleswig-Holstein. e. 66"S. geotools.