long - Java, convierte lat/lon a UTM

lat long to utm (10)

¿Alguien sabe de una forma, en Java, para convertir una posición de la superficie de la Tierra de Lat, Lon a UTM (por ejemplo en WGS84)? Actualmente estoy buscando Geotools, pero desafortunadamente la solución no es obvia.

Eche un vistazo a OpenMap específicamente al paquete com.bbn.openmap.proj.coords en la API.

la respuesta de Alberta 10 TM probablemente sea exagerada para lo que necesita; este enlace del desarrollador probablemente tenga toda la información que necesita.

Steve Dutch en la Universidad de Wisconson tiene una muy buena reseña sobre el algoritmo. También incluye un documento de Excel para ayudar a verificar sus números.

Sugiero JCoord . Le permite convertir entre varios esquemas de coordenadas cartográficas usando una API muy simple.

Si te sientes descarado, echa un vistazo al código fuente; son páginas y páginas de trigonometría densa. Espléndido.

También hay una versión de JavaScript llamada JSCoord.

Pude usar Geotools 2.4 para obtener algo que funciona, basado en algún código de ejemplo .

double utmZoneCenterLongitude = ... // Center lon of zone, example: zone 10 = -123 int zoneNumber = ... // zone number, example: 10 double latitude, longitude = ... // lat, lon in degrees MathTransformFactory mtFactory = ReferencingFactoryFinder.getMathTransformFactory(null); ReferencingFactoryContainer factories = new ReferencingFactoryContainer(null); GeographicCRS geoCRS = org.geotools.referencing.crs.DefaultGeographicCRS.WGS84; CartesianCS cartCS = org.geotools.referencing.cs.DefaultCartesianCS.GENERIC_2D; ParameterValueGroup parameters = mtFactory.getDefaultParameters("Transverse_Mercator"); parameters.parameter("central_meridian").setValue(utmZoneCenterLongitude); parameters.parameter("latitude_of_origin").setValue(0.0); parameters.parameter("scale_factor").setValue(0.9996); parameters.parameter("false_easting").setValue(500000.0); parameters.parameter("false_northing").setValue(0.0); Map properties = Collections.singletonMap("name", "WGS 84 / UTM Zone " + zoneNumber); ProjectedCRS projCRS = factories.createProjectedCRS(properties, geoCRS, null, parameters, cartCS); MathTransform transform = CRS.findMathTransform(geoCRS, projCRS); double[] dest = new double[2]; transform.transform(new double[] {longitude, latitude}, 0, dest, 0, 1); int easting = (int)Math.round(dest[0]); int northing = (int)Math.round(dest[1]);

quizás esté manipulando una gran cantidad de datos espaciales aquí, supongo que está utilizando una especie de dbms relacionales espacialmente habilitados como Postgres con extensión PostGIS. Podría hacer fácilmente este tipo de transformación en PostGIS, ofrece un amplio soporte de operaciones geométricas y relaciones tal como se define en los estándares OGC ...

¡solo un pensamiento!

Sin biblioteca, sin nada. ¡Copia esto!

¡Usando estas dos clases, puedes convertir grado (latitud / longitud) a UTM y viceversa!

private class Deg2UTM { double Easting; double Northing; int Zone; char Letter; private Deg2UTM(double Lat,double Lon) { Zone= (int) Math.floor(Lon/6+31); if (Lat<-72) Letter=''C''; else if (Lat<-64) Letter=''D''; else if (Lat<-56) Letter=''E''; else if (Lat<-48) Letter=''F''; else if (Lat<-40) Letter=''G''; else if (Lat<-32) Letter=''H''; else if (Lat<-24) Letter=''J''; else if (Lat<-16) Letter=''K''; else if (Lat<-8) Letter=''L''; else if (Lat<0) Letter=''M''; else if (Lat<8) Letter=''N''; else if (Lat<16) Letter=''P''; else if (Lat<24) Letter=''Q''; else if (Lat<32) Letter=''R''; else if (Lat<40) Letter=''S''; else if (Lat<48) Letter=''T''; else if (Lat<56) Letter=''U''; else if (Lat<64) Letter=''V''; else if (Lat<72) Letter=''W''; else Letter=''X''; Easting=0.5*Math.log((1+Math.cos(Lat*Math.PI/180)*Math.sin(Lon*Math.PI/180-(6*Zone-183)*Math.PI/180))/(1-Math.cos(Lat*Math.PI/180)*Math.sin(Lon*Math.PI/180-(6*Zone-183)*Math.PI/180)))*0.9996*6399593.62/Math.pow((1+Math.pow(0.0820944379, 2)*Math.pow(Math.cos(Lat*Math.PI/180), 2)), 0.5)*(1+ Math.pow(0.0820944379,2)/2*Math.pow((0.5*Math.log((1+Math.cos(Lat*Math.PI/180)*Math.sin(Lon*Math.PI/180-(6*Zone-183)*Math.PI/180))/(1-Math.cos(Lat*Math.PI/180)*Math.sin(Lon*Math.PI/180-(6*Zone-183)*Math.PI/180)))),2)*Math.pow(Math.cos(Lat*Math.PI/180),2)/3)+500000; Easting=Math.round(Easting*100)*0.01; Northing = (Math.atan(Math.tan(Lat*Math.PI/180)/Math.cos((Lon*Math.PI/180-(6*Zone -183)*Math.PI/180)))-Lat*Math.PI/180)*0.9996*6399593.625/Math.sqrt(1+0.006739496742*Math.pow(Math.cos(Lat*Math.PI/180),2))*(1+0.006739496742/2*Math.pow(0.5*Math.log((1+Math.cos(Lat*Math.PI/180)*Math.sin((Lon*Math.PI/180-(6*Zone -183)*Math.PI/180)))/(1-Math.cos(Lat*Math.PI/180)*Math.sin((Lon*Math.PI/180-(6*Zone -183)*Math.PI/180)))),2)*Math.pow(Math.cos(Lat*Math.PI/180),2))+0.9996*6399593.625*(Lat*Math.PI/180-0.005054622556*(Lat*Math.PI/180+Math.sin(2*Lat*Math.PI/180)/2)+4.258201531e-05*(3*(Lat*Math.PI/180+Math.sin(2*Lat*Math.PI/180)/2)+Math.sin(2*Lat*Math.PI/180)*Math.pow(Math.cos(Lat*Math.PI/180),2))/4-1.674057895e-07*(5*(3*(Lat*Math.PI/180+Math.sin(2*Lat*Math.PI/180)/2)+Math.sin(2*Lat*Math.PI/180)*Math.pow(Math.cos(Lat*Math.PI/180),2))/4+Math.sin(2*Lat*Math.PI/180)*Math.pow(Math.cos(Lat*Math.PI/180),2)*Math.pow(Math.cos(Lat*Math.PI/180),2))/3); if (Letter<''M'') Northing = Northing + 10000000; Northing=Math.round(Northing*100)*0.01; } } private class UTM2Deg { double latitude; double longitude; private UTM2Deg(String UTM) { String[] parts=UTM.split(" "); int Zone=Integer.parseInt(parts[0]); char Letter=parts[1].toUpperCase(Locale.ENGLISH).charAt(0); double Easting=Double.parseDouble(parts[2]); double Northing=Double.parseDouble(parts[3]); double Hem; if (Letter>''M'') Hem=''N''; else Hem=''S''; double north; if (Hem == ''S'') north = Northing - 10000000; else north = Northing; latitude = (north/6366197.724/0.9996+(1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)-0.006739496742*Math.sin(north/6366197.724/0.9996)*Math.cos(north/6366197.724/0.9996)*(Math.atan(Math.cos(Math.atan(( Math.exp((Easting - 500000) / (0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting - 500000) / (0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2)/3))-Math.exp(-(Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*( 1 - 0.006739496742*Math.pow((Easting - 500000) / (0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2)/3)))/2/Math.cos((north-0.9996*6399593.625*(north/6366197.724/0.9996-0.006739496742*3/4*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.pow(0.006739496742*3/4,2)*5/3*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996 )/2)+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4-Math.pow(0.006739496742*3/4,3)*35/27*(5*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/3))/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2))+north/6366197.724/0.9996)))*Math.tan((north-0.9996*6399593.625*(north/6366197.724/0.9996 - 0.006739496742*3/4*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.pow(0.006739496742*3/4,2)*5/3*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2*north/6366197.724/0.9996 )*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4-Math.pow(0.006739496742*3/4,3)*35/27*(5*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/3))/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2))+north/6366197.724/0.9996))-north/6366197.724/0.9996)*3/2)*(Math.atan(Math.cos(Math.atan((Math.exp((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2)/3))-Math.exp(-(Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2)/3)))/2/Math.cos((north-0.9996*6399593.625*(north/6366197.724/0.9996-0.006739496742*3/4*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.pow(0.006739496742*3/4,2)*5/3*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4-Math.pow(0.006739496742*3/4,3)*35/27*(5*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/3))/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2))+north/6366197.724/0.9996)))*Math.tan((north-0.9996*6399593.625*(north/6366197.724/0.9996-0.006739496742*3/4*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.pow(0.006739496742*3/4,2)*5/3*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4-Math.pow(0.006739496742*3/4,3)*35/27*(5*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/3))/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2))+north/6366197.724/0.9996))-north/6366197.724/0.9996))*180/Math.PI; latitude=Math.round(latitude*10000000); latitude=latitude/10000000; longitude =Math.atan((Math.exp((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2)/3))-Math.exp(-(Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2)/3)))/2/Math.cos((north-0.9996*6399593.625*( north/6366197.724/0.9996-0.006739496742*3/4*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.pow(0.006739496742*3/4,2)*5/3*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2* north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4-Math.pow(0.006739496742*3/4,3)*35/27*(5*(3*(north/6366197.724/0.9996+Math.sin(2*north/6366197.724/0.9996)/2)+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/4+Math.sin(2*north/6366197.724/0.9996)*Math.pow(Math.cos(north/6366197.724/0.9996),2)*Math.pow(Math.cos(north/6366197.724/0.9996),2))/3)) / (0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2))))*(1-0.006739496742*Math.pow((Easting-500000)/(0.9996*6399593.625/Math.sqrt((1+0.006739496742*Math.pow(Math.cos(north/6366197.724/0.9996),2)))),2)/2*Math.pow(Math.cos(north/6366197.724/0.9996),2))+north/6366197.724/0.9996))*180/Math.PI+Zone*6-183; longitude=Math.round(longitude*10000000); longitude=longitude/10000000; } }

Para mis proyectos, he usado la biblioteca LatLongLib , de Ahmed Taha. Creo que es muy fácil convertir las coordenadas del sistema UTM al sistema Latitud-Longitud y viceversa. Solo necesita jugar con las clases UTMUtils, UTMPoint y LatLonPoint.

Hace tiempo, también consideré elegir Jcoord . Fue fácil y directo al grano también. Sin embargo, necesitaba usar el elipsoide WGS84 y, en ese momento, solo LatLongLib parecía tener esa característica.

Puede usar este proyecto https://github.com/Berico-Technologies/Geo-Coordinate-Conversion-Java/ y agregarlo a su pom.xml existente usando jitpack.

He podido convertir con éxito las coordenadas UTM (30N, esto es, zona 30 y hemisferio norte) en Latitud y Longitud. Ver mi ejemplo a continuación:

public void setPunto(Point punto) { this.punto = punto; LatLon latlon = UTMCoord.locationFromUTMCoord(30, AVKey.NORTH, punto.getX(), punto.getY()); this.latitud = latlon.getLatitude().degrees; this.longitud = latlon.getLongitude().degrees; }

Tenga en cuenta que la clase Point es del tipo de clase com.vividsolutions.jts.geom.Point.

La transformación de una coordenada solo se puede hacer en unas pocas líneas de código:

Coordinate coordinate = new Coordinate(x, y); MathTransform transform = CRS.findMathTransform(CRS.decode("EPSG:4326"), CRS.decode("EPSG:3857"), false); JTS.transform(coordinate, coordinate, transform);

Esto transformará una coordenada de longitud / latitud (EPSG: 4326) en la coordenada de Web Mercator projection (EPSG: 3857).

Solo necesita depender de las siguientes dos bibliotecas GeoTools en su herramienta de compilación (por ejemplo, maven):

<repositories> <repository> <id>osgeo</id> <name>Open Source Geospatial Foundation Repository</name> <url>http://download.osgeo.org/webdav/geotools/</url> </repository> </repositories> <dependencies> <dependency> <groupId>org.geotools</groupId> <artifactId>gt-api</artifactId> <version>${geotools.version}</version> </dependency> <dependency> <groupId>org.geotools</groupId> <artifactId>gt-epsg-hsql</artifactId> <version>${geotools.version}</version> </dependency> </dependencies>

Esta respuesta se basa en una pregunta / respuesta en gis.stackexchange.com. Publiqué mi respuesta porque las respuestas actuales aquí parecen ser bastante detalladas.