Epsg 4326 degrees to meters. Axes: northing, easting (X,Y). Epsg 4326 degrees to meters

 
Axes: northing, easting (X,Y)Epsg 4326 degrees to meters  Using 4326, you can get your desired values (40

Coordinate system: Cartesian 2D CS. Looking into the proprieties of the layer indicates to me the CRS is EPSG:4326. ETRS89 has no datum shift to EPSG:4326 WGS84 which you can get from GPS receivers, and all official cadastral. 846255)] (longitude,latitude) on the earth, I take the GeoSeries. Custom, user-created CRSs are stored in a user CRS database. EPSG:2413 Projected coordinate system for China - onshore between 109°30'E and 112°30'E. DESC_NM: World. ). 4777° N: a point nearby the Greenwich observatory in London (today's IERS reference meridian passes a few dozen meters to the east of the observatory, but that is another story,. Cadastre, engineering survey, topographic mapping (large scale). Zone width 3 degrees. Area of use: World. How can I convert projection coordinates into the meters so that I can plot the heat map?The Pixel Size is 0. We need to start by downloading a Landsat scene. if you are not at the equator (and even if you are, but then the difference can be neglected in most applications), then 1 degree of latitude does not represent the same distance on the surface of the Earth than 1 degree of longitude. Southern hemisphere - south of 50°S onshore and offshore, including Antarctica. From epsg. The distinction in usage between ETRF89 and ETRS89 is confused: although in principle conceptually different in practice both are. geotools. A four page cheat sheet about coordinate reference systems (CRSs), including projections, datums, and coordinate systems, and the use of these in R. crs import from_epsg,from_string,to_string # Import crs from different formats: wgs = from_epsg(4326) wgs =. Quick way of telling what SRID your lat/lon is in: Look at how big the number & the precision. epsg:4121 - ggrs87 EPSG:4326 - WGS 84 Greece - onshore. The unit is degrees longitude and latitude, which is a result of your georeference system being epsg:4326. To convert a GeoDataFrame/GeoSeries you need to provide the. coordinates are in decimal degrees (lat, lon)). distance method, but the method does not give me the right answer. To do this conversion programmatically, other SO questions will help. Import a CVS file (see data below) into QGIS as a text delimited layer with Geometry Definition: Point coordinates and the default Geometry CRS: EPSG:4326-WGS 84. You have to provide the parameters explicitly, as shown here. –. This option lacks an EPSG identifier hindering interoperability with external systems. As a rough estimate, at the equator, 1 degree of latitude is approximately 111 kilometers, which is roughly equivalent to 111,000 meters. . 06°S and 85. Sorry for the confusion, I'll edit the post. I add the layer world map (EPSG:4326 – WGS 84 by default) by taping “world” in the coordinate box in the middle bottom, I also add Open street map (EPSG:3857 – WGS 84 / Pseudo-Mercator by. L. Replaced by Xian 1980 / 3-degree Gauss-Kruger zone 40 (code 2364). My other constraint is working in a Pseudo-Mercator projection, which is only generating the vector grid to the nearest Degree. 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. I need to calculate the intersection area in square meters between first polygon data and second polygon data. EPSG:3338 Projected coordinate system for United States (USA) - Alaska. from_user_input(): CRS WKT string. You can use the search on the site to find an EPSG code. I am confused by the following fact: EPSG:4326 is a geographic system, it is not projected and it is following latitude, longitude values. 1 degree° = 60 arc minutes ' 1 arc minute ' = 60 arc seconds '' 1 arc second '' at equatorial sea level = 1852m/60 = 30. However, there is no global system for this. (1) Change the coord sys of the map window to the scheme that drives your updating. the bounds. Replaced by Xian 1980 / 3-degree Gauss-Kruger zone 38 (code 2362). The layer configs in Geoserver: native srs -. example: make a one-degree unit square, in epsg 4326 and equirectangular > library(sf) Linking to GEOS 3. I'm trying to reproject a 500m MODIS image into 0. “epsg:4326”) An EPSG integer code (i. 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. res. Latitude (𝜙) and Longitude (𝜆) on an ellipsoid. Proj("+init=EPSG:4326") epsg28992=pyproj. EPSG:4326 and IGNF:WGS84G It looks like both of them do not fit because of the map distorted in both cases. gdaltransform -s_srs epsg:4326 -t_srs epsg:3857 10 30 1113194. It turns out I was attempting to intersect the 3857 projection with a 4326 projection later in my code. I've followed the instructions for resampling here, but I'm confused about reducing the resolution. Ellipsoid semi-major axis (a)=20926201 Gold Coast feet. EPSG:2420 Projected coordinate system for China - between 130°30'E and 133°30'E. 000000197720465). Error: creation of data source failed (OGR error:Failed to create directory . 0174532925199433,ID["EPSG",9122]], Because the last one is not projected it does not have lengthunit. To illustrate that: let's say you have coordinates in EPSG:4326 (WGS84, GPS coordinates) 0° E, 51. Cadastre, engineering survey, topographic mapping (large scale). Functions providing a signature for this type accept any threshold parameters, and return their measurements, in meter (or square meter for aerial measurements) and are calculated either on a spherical or spheroidal (most accurate) Earth model, with axii parameters as per the underlying reference ellipsoid (defaults to that of. Truncated form of Beijing 1954 / 3-degree Gauss-Kruger zone 39 (code 2415). Pyproj expects degrees (lon, lat) or meters (x,y) as units but the unit of Projection: 2263 isUNIT["US survey foot". From what I read, to change the unit from degrees to meters I need to change my CRS. 3 Answers. Add a comment. 4 strings are a compact way to identify a spatial or coordinate reference system. Projected bounds: -20,026,376. To calculate the distance on the dataset in 4326, I assume that Qgis does some kind of re-projection in the background. Neither the X nor Y dimension is fixed in planar units. However, there are plenty of projected coordinate reference systems (CRS) that use the WGS84 datum with metres as the horizontal units. Create Vector Grid in Meters with EPSG:3857. Transforms coordinates of object to new projection. 1 > m = cbind(c(0,1,1,0,0),c(0,0,1,1,0)) > p1 = st_sfc(st_polygon(list(m)), crs=4326) > p1e = st_transform. From the doc I know that res returns the (width, height) of pixels in the units of its coordinate reference system. As far as I understand I need to convert CRS to WGS 84. Sep 26, 2022 at 16:33. 78. WGS84 UTM has zones that cover the whole world; you can determine from the coordinates whether it's north or south of equator and which zone it's in. Isle of Man onshore. The original view (EPSG:3857) was following: After changing to CRS to. 24081m. Replaced by Leigon / Ghana Metric Grid from 1978. addOptions({ sphericalMercator: true, projection: new OpenLayers. Russian Federation - onshore. Even when I set the OpenStreetMap layer to EPSG 3857 it seems to be a completely different scale. PROJ. 4 strings are a compact way to identify a spatial or coordinate reference system. So,In mercator projection distance between lat lon points is in degrees, not meters. 00045 x 0. All the answers on the internet describe that you need to project to a flat UTM coordinate system for slope and elevation profile stuff to work. I have tried the save as - browse - WGS84 EPSG:4326 but this appears: Export to vector file failed. spatial_ref_sys WHERE srid = 4326; returns UNIT s of type "degree". Search Map Transform About. So if you want a 500 meter buffer. 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. io: Area of use: Europe between 6°E and 12°E: Austria; Belgium; Denmark - onshore and offshore; Germany - onshore and offshore; Norway including. 788)',4326) , 100 ); It takes the 3rd parameter (100) as 'degree' , so it returns all data , I have to narrow down to 0. 1) The coordinates in (EPSG) 4326 are long/lat, and they are in decimal degrees. 5));. In this following example we will be computing straight line distances between Penzance and London in PostGIS with different projections to emphasize the importance of choosing wisely. Cadastre, engineering survey, topographic mapping (large scale). 137 11. 66"S. Later that year, EPSG provided an updated identifier, EPSG:3857 with the official name "WGS 84 / Pseudo-Mercator". Truncated form of Beijing 1954 / 3-degree Gauss-Kruger zone 28 (code 2404). I am using the JTS from vividsolutions. proj_create_operations: Source and target ellipsoid do not belong to the same >celestial body. The code above works fine in this case. Zone width 3 degrees. Cadastre, engineering survey, topographic mapping (large scale). I have small points like these but they get enlarged as if I had set the projection to a lat/lon type. This is easily the most common use for the CRS class: import org. To avoid terminological confusion: the named "WGS84" is a CRS (coordinate reference system), so synonyms and human-readable abbreviation for urn:ogc:def:crs:EPSG::4326. e. EPSG:2136 Projected coordinate system for Ghana - onshore. Also found with truncated false easting - see Beijing 1954 / 3-degree Gauss-Kruger CM 114E (code 2435). I used the input EPSG as 3857 and the output EPSG as 4326. Orientations: west, south. io/4269 which means the co-ordinates will be expressed in degrees and for accuracy should be in North America. STSrid=4326; But it doesn't work either. 06°N. The manual of st_buffer says this about the dist argument:I created a new project with decimal degrees system. The original imagery is 6cm resolution, and that is in EPSG:32737. S. Please, see screen capture showing the direct GeoPackage layer properties and not from the Layers window. 3683910621330142 : 19156980. 555479), 5186), 1) This query gives me 32792923 rows which is all data in the table. Also used offshore by State Geological Surveys. EPSG:2436 Projected coordinate system for China - onshore between 115°30'E and 118°30'E. 9, -1. epsg:4326. . 4 strings. In this case EPSG:3857, the projection from the question. In Hungary and Slovakia, replaced by Pulkovo 1942(83) / 3-degree Gauss-Kruger zone 8 (CRS code 4434). The points and line string where in "epsg=4326" which I am assuming is. 12 8. Your title says you want to. Print the first two rows. See CRS code 5678 for variant with axes order reversed to easting before. I need to create vector grids with precise measurements in meters. I’ve tried several: 2. That is, each pixel represents some unit area. g. Rasters are composed of rectangular cells of the same size (expressed by map units, such as degrees or meters), so it is usually impracticable to transform coordinates of pixels separately. EPSG:4378) are based on an ellipsoid as they don't necessarily have the same centres. 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. geom AS geography), 100 , 'quad_segs=8') AS geometry) AS geom from points. EPSG:32637 Projected coordinate system for Between 36°E and 42°E, northern hemisphere between equator and 84°N, onshore and offshore. Engineering survey, topographic mapping. However, there is no global system for this. If you want an area in metres (or feet) project to a suitable projected coordinate system and calculate the area there. Transforming EPSG:25831 to EPSG:4326 in Decimal Degrees format. 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. Latitude (φ - phi) is the angle between the equatorial plane and the straight line that. com calculates its Box Boundaries (bbox) which they use to query data from their backend. 076 I have the following data structure. Considering that the spatial data. All the answers on the internet describe that you need to project to a flat UTM coordinate system for slope and elevation profile stuff to work. So if I tell the library I want a buffer with a distance of 5 it will give me back a buffer with a radius of 5 degrees around my point. 555479), 5186), 1) This query gives me 32792923 rows which is all data in the table. EPSG:6933 has meters as unit epsg. 39 -20,048,966. Horizontal component of 3D system. The results are aligned with GIS data from. Replaced by Xian 1980 / 3-degree Gauss-Kruger zone 37 (code 2361). Pixel. EPSG:2607 Projected coordinate system for Russian Federation - onshore between 91°30'E and 94°30'E. The problem is the Esri geometry library uses the units of your projection as the distance, and in the case of EPSG:4326 the units are degrees. 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. Area of use: North America - onshore and. EPSG:2398 Projected coordinate system for Czechia - west of 13°30'E. 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. Then the target SRS, and the destination and source filenames. Cadastre, engineering survey, topographic mapping (large scale). 78098m, dY=-283. Plot ID X_meters Y_meters M1 0. it seems it required to be cast twice: INSERT INTO buffers SELECT id_points, CAST (ST_Buffer (CAST (points. 3 364110 4110007 (corner) M1. To see if everything works as expected I printed the length of two test linestrings. But unfortunately, the resulting files do not match the output visualized in the Panoply software. Singapore - onshore and offshore. 1353377°) Maybe your source coordinate is inaccurate because it is not in the area where the coordinate system is used. EPSG:2537 Projected coordinate system for Kazakhstan, Russian Federation onshore, Turkmenistan and Uzbekistan - between 61°30'E and 64°30'E. Truncated form of Pulkovo 1942 / 3-degree Gauss-Kruger zone 59 (code 2576). You must reproject your data into EPSG:4326 for getting degrees in WGS84. See section Custom Coordinate Reference System for information on managing your custom coordinate reference systems. The input coordinates are given in EPSG:4326 as latitude and longitude. Adding "-a_ullr" seemed to work and the color shading code is fine, but it wants meters and not degrees. example: make a one-degree unit square, in epsg 4326 and equirectangular > library(sf) Linking to GEOS 3. g. Engineering survey, topographic mapping. Scope: Geodesy. The CRS must be changed to a projected CRS for any spatial analysis or measurements. Germany - states of former East Germany onshore - between 10°30'E and 13°30'E - Brandenburg; Mecklenburg-Vorpommern; Sachsen; Sachsen-Anhalt; Thuringen. defs function (proj4. EPSG:2676 Projected coordinate system for Russian Federation - onshore between 124°30'E and 127°30'E. EPSG:2726 Projected coordinate system for Russian Federation - onshore between 100°30'E and 103°30'E. 34 -20037508. – Rob Raymond. The desired projection is set with the projection keyword. Modified 5 years, 8 months ago. Somalia. 0, GDAL 3. decode("EPSG:4326"); The example above assumes you have gt-epsg-hsql jar on your CLASSPATH. WGS 84 is most commonly used to describe the. Reproject Map. Now explicitly set the coordinate reference system to EPSG:3857 for art_dist_meters by using to_crs(). Crs coordinates are typically labeled x and y; in the case of EPSG:4326 (which is the same as WGS84) coordinates are provided in degrees in the common longitude and latitude definition. gdalwarp assumes that you have provided an orthorectified image. 001° of longitude. transform(-11705274. The most commonly used coordinate systems are the WGS 84 Long Lat (SRID=4326) spherical coordinate system and the Mercator (EPSG:3785) projected coordinate system. The current map coordinates are still shown in Decimal Degrees. shp as layer to the current project. One degree from east to west at the equator is about 110 km, while at the polar circle it is about 38 km. This can be referred to using the authority code "EPSG:4326". 6922)I have a problem when converting from Korean 2000 Coordinates System (EPSG:5179) to Decimal Degree (EPSG:4326). The EPSG:4326 version has pixels which are square in degrees Pixel Size = (0. EPSG:2633 Projected coordinate system for Russian Federation - onshore between 169°30'E and 172°30'E. Axes: northing, easting (N,E). (Apparently these are approximations, but they're supposed to be pretty good. CRS; CoordinateReferenceSystem sourceCRS = CRS. e. 3) to reproject data from EPSG:4326 to a local projection. I tried ST_distance_sphere and st_dwithin which can use metres, but if I do that, the explain shows that the index. Convert coordinates from EPSG 4326 to EPSG 28992 in PostGIS. 00045 degrees, these degrees being the distance between two adjacent vertices of the cell. See my update; you will have to find a suitable projection for your area of interest that uses meter! – geozelot. EPSG:32615) are specified in metres. . UoM: m. 0. And this is the query : > select * from theuser where ST_DWithin (point , ST_GeomFromText ('POINT (120. I want to transform these coordinates to EPSG:4326 in Decimal Degrees format. – user30184 The World Geodetic System ( WGS) is a standard used in cartography, geodesy, and satellite navigation including GPS. (from the. Transform your coordinates online easily with epsg. It also defines a PROJECTION (Mercator_Auxiliary_Sphere) which defines how to project the 3D GEOGCS coordinates into 2D coordinates. Replaced by Xian 1980 / 3-degree Gauss-Kruger zone 38 (code 2362). Now I want to use map in degree units. Also found with truncated false easting - see Beijing 1954 / 3-degree Gauss-Kruger CM 111E (code 2434). Horizontal component. Cadastre, engineering survey, topographic mapping (large scale). Area of use: South Africa - east of 32°E. PROJ or PROJ. I have two points on a EPSG:4326 layer. I need to create vector grids with precise measurements in meters. 347945557 are not that. 1 m of the intended values. e. From what I read, to change the unit from degrees to meters I need to change my CRS. WGS84 is a geographical coordinate systems, its measures are in degrees of an ellipsoid. In this class, we will use EPSG:3857 WGS84 Web Mercator (Auxiliary Sphere) with units in meters. As defuneste mentions in their answer, 3857 is in meters and 4326 is in degrees, so the intersection didn't work. ‘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. . Transforms using the pipeline= argument may fail if there is ambiguity in the axis order of the specified coordinate reference system; if you need the traditional GIS order, use "OGC:CRS84", not "EPSG:4326". Only on top of the Equator one degree is as long in both directions. 0174532925199433,ID["EPSG",9122]], Because the last one is not projected it does not have lengthunit. 1. crs. Depending on the jars you have on your CLASSPATH a range of authorities are available to define a coordinate. I think that the. ArcGIS is sensibly not allowing you to do this, because if it did, you would get coordinates that represented the distance in meters from 0° longitude 0° latitude along an angular pathway. 4326 is the EPSG code for WGS 84 lon/lat. The units are degrees. EPSG:2436 Projected coordinate system for China - onshore between 115°30'E and 118°30'E. Left: Unprojected (Longitude/Latitude) using World Geodetic System 1984 Datum (WGS84) (EPSG = 4326) Right: USA Contiguous Albers Equal Area Conic, USGS (EPSG = 5070 or 102003) CRS. It represents Earth as a three. e. EPSG:4026 Projected coordinate system for Moldova. Also it is not well suited to show a map of a 3-D earth on a 2-D map. With the changed. 4 library. import pyproj. 4 I have a project with two point layers (in WGS84). Second polygon data: 100% polygon data in EPSG:4326. Actually, within at least PostgreSQL 10. 63 degrees N and one degree in meters is not as long along the latitude than along the longitude. 15. UoM: m. (meters, feet). Setting st_crs () of your object does nothing in itself other than that it rectifies the reference system, so that the thirty and fifty in your coordinates are understood as degrees. Spatial referencing. Instead, if you want to express length in meters, you have to transform your geometries from WGS84 to a. The equation from converting degrees to meters becomes: (3) L ( m) = r × π × α ( d e g) 180. EPSG:4258 - ETRS89. United States (USA). Just wondering if if there is a way to change the buffer unit to meters but keep using EPSG 4326 as then all my layers seem to be at the right scale. referencing. 7 percent in scale and differences in northing of up to 43km in the map (21km on the. 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. EPSG:2635 Projected coordinate system for Russian Federation - onshore between 175°30'E and 178°30'E. 7 centimeters, which result you can get with this procedure: Find the long/lat coordinates for the EPSG:3857 coordinates: gdaltransform -s_srs epsg:3857 -t_srs epsg:4326 0 20000000 0 85. Not used offshore in oil industry. The WGS84's ellipsoid is EPSG:7030. Create a dataframe (note the values must be in metres!) Convert to a GeoDataFrame, setting the current CRS. Therefore if your output is in EPSG:3857 you will get meters but output to EPSG:4326 shows you degrees. Many systems use spherical trigonometry to calculate distances here. 5184195, -104. Sometimes the input is the SRS name "EPSG:4326", and the input coordinates then are given in degrees. 8. You've got a good grasp of it. if you are not at the equator (and even if you are, but then the difference can be neglected in most applications), then 1 degree of latitude does not represent the same distance on the surface of the Earth than 1 degree of longitude. csv with the desired CRS; Save the . For example, one of the most commonly used CRS is the WGS84 latitude-longitude projection. 12 9. I want to use a built-in function buffer of GeoPandas. The following example converts the station coordinates of two German stations to the regionally used Gauß-Krüger system. 347945557 are not that. 8230, 22. I have a global map with CRS WGS84-EPSG:4326 and I want to calculate the area of my polygons. Also found with truncated false easting - see Beijing 1954 / 3-degree Gauss-Kruger CM 111E (code 2434). The current version, WGS 84, defines an Earth-centered, Earth-fixed coordinate system and a geodetic datum, and also describes the associated Earth Gravitational Model (EGM) and World Magnetic Model (WMM). I simply cannot figure out why the units are meters and not degrees when native EPSG is 4326? In the past when I have published layers as 4326, DWITHIN always took only degree units. But you have to accept that a CRS can not be represented by. Project it to the standard WGS84 CRS in degrees (EPSG:4326). I would use geopandas for this, as it has a convenient . Note: for preliminary concept visualisation only. Proj("+init=EPSG:28992") pyproj. 1) Your query is correct but you coordinates are inverted. from pyproj import CRS crs3857 = CRS(3857) # Web Mercator crs4326 = CRS(4326) # WGS84 crs3857. So I need to change to EPSG:3857 and then it will work. The definition switched to using the WGS84 ellipsoid (EPSG:4326), rather than the sphere. Features that cannot be transformed are returned as empty geometries. EPSG:4231 - ED87. For comparison, I included a similar conversion from. If you want meters, you'd need a projected coordinate system. 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. 463557),. When you load your dataframe all_tws, you can get its actual crs with all_tws. EPSG:32403 Projected coordinate system for Between 168°W and 162°W, northern hemisphere between equator and 84°N, onshore and offshore. Uses spherical development of ellipsoidal coordinates. May 20, 2013 at 20:53. EPSG code 4326 that we have here, belongs to the WGS84 coordinate system (i. coordinates are in decimal degrees: latitudes and longitudes). One solution is to use the GEOGRAPHY data type. And the conversion depends on the latitude of the points, as 1 degree at the equator will be less meters than 1 degree at high latitudes. 10 20 0 10 20 26. Orientations: north, east. Proj (init='epsg:4326') The pyproj library can build a Proj object from an EPSG code. 0. EPSG:3414 Projected coordinate system for Singapore - onshore and offshore. e. EPSG:2602 Projected coordinate system for Kazakhstan, Kyrgyzstan and Russian Federation onshore - between 76°30'E and 79°30'E. EPSG:20935 Projected coordinate system for Botswana - east of 24°E; Zambia - between 24°E and 30°E; Zimbabwe - west of 30°E . 788)',4326) , 100 ); It takes the 3rd parameter (100) as 'degree' , so it returns all data , I have to narrow down to 0. UoM: m. 6. Orientations: north, east. The following example converts the station coordinates of two German stations to the regionally used Gauß-Krüger system. “epsg:4326”) An EPSG integer code (i. The ST_Distance / ST_DWithin /etc. Also found with truncated false easting - see Beijing 1954 / 3-degree Gauss-Kruger CM 120E (code 2437). Also used offshore by State Geological Surveys. e. We are developing Geographical Information System for Korean company. Consequently CRS created with the "EPSG:4326" or "WGS84" strings use the latitude first, longitude second axis order. I'm having a bit of trouble with projecting a DataFrame in GeoPandas from EPSG:4326 to EPSG:3857 in a notebook. Add a comment | 1 Answer Sorted by: Reset to. Without changing the database, can you retrieve this information (lat lat in decimal degrees) in java? I'm trying but I can not. Vector(new OpenLayers. Truncated form of Pulkovo 1995 / 3-degree Gauss-Kruger zone 11 (code 2645).