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I've been searching for a while now (here and on google obviously) for a neat way to convert a set of UTM coords to Latitude and Longitude. I've got the coords and I know in what zone they are, but how do I convert this to lat and lon? Was hoping there would be some kind of a class that could do at least some of the magic for me, but it dosn't seem so :(

Any suggestions on this?

I know it can be done, as this converter seems to work just fine:

http://home.hiwaay.net/~taylorc/toolbox/geography/geoutm.html

Any input is greatly appreciated! :)

Thanks!

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Both good answers! :) Thanks a lot. I fixed it a bit different by finding the Lat and Lon from a given address. Not the most neat way of programming, but it does the work. I'm going to explore the ProjNet library though. Thanks again :) –  bomortensen Apr 22 '10 at 13:40

5 Answers 5

up vote 11 down vote accepted

Take a look at this .NET library http://projnet.codeplex.com/ . This should help in your case

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There is c++ code available on this website: http://www.gpsy.com/gpsinfo/geotoutm/

Go down the page a bit to the "Source Code" heading, and look for these files at the bottom:

Chuck Gantz

Enclosures: LatLong-UTMconversion.cpp (view online as text file) LatLong-UTMconversion.h (view online as text file) UTMConversions.cpp (view online as text file) SwissGrid.cpp (view online as text file) constants.h (view online as text file)

e.g. the first file links to: www.gpsy.com/gpsinfo/geotoutm/gantz/LatLong-UTMconversion.cpp etc

There are functions here for going both ways: UTM to Lat Long, and vice versa. If you look elsewhere, there are python versions of this code. e.g. at code.google.com/p/pys60gps/source/browse/trunk/lib/LatLongUTMconversion.py?r=246

There are also c# versions of some of it: at mediakey.dk/~cc/convert-northing-and-easting-utm-to-longitude-and-latitude/

Good luck.

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Here is:

 public static void ToLatLon(double utmX, double utmY, string utmZone, out double latitude, out double longitude)
    {
        bool isNorthHemisphere = utmZone.Last() >= 'N';

        var diflat = -0.00066286966871111111111111111111111111;
        var diflon = -0.0003868060578;

        var zone = int.Parse(utmZone.Remove(utmZone.Length - 1));
        var c_sa = 6378137.000000;
        var c_sb = 6356752.314245;
        var e2 = Math.Pow((Math.Pow(c_sa,2) - Math.Pow(c_sb,2)),0.5)/c_sb;
        var e2cuadrada = Math.Pow(e2,2);
        var c = Math.Pow(c_sa,2) / c_sb;
        var x = utmX - 500000;
        var y = isNorthHemisphere ? utmY : utmY - 10000000;

        var s = ((zone * 6.0) - 183.0);
        var lat = y / (c_sa * 0.9996);
        var v = (c / Math.Pow(1 + (e2cuadrada * Math.Pow(Math.Cos(lat), 2)), 0.5)) * 0.9996;
        var a = x / v;
        var a1 = Math.Sin(2 * lat);
        var a2 = a1 * Math.Pow((Math.Cos(lat)), 2);
        var j2 = lat + (a1 / 2.0);
        var j4 = ((3 * j2) + a2) / 4.0;
        var j6 = ((5 * j4) + Math.Pow(a2 * (Math.Cos(lat)), 2)) / 3.0;
        var alfa = (3.0 / 4.0) * e2cuadrada;
        var beta = (5.0 / 3.0) * Math.Pow(alfa, 2);
        var gama = (35.0 / 27.0) * Math.Pow(alfa, 3);
        var bm = 0.9996 * c * (lat - alfa * j2 + beta * j4 - gama * j6);
        var b = (y - bm) / v;
        var epsi = ((e2cuadrada * Math.Pow(a, 2)) / 2.0) * Math.Pow((Math.Cos(lat)), 2);
        var eps = a * (1 - (epsi / 3.0));
        var nab = (b * (1 - epsi)) + lat;
        var senoheps = (Math.Exp(eps) - Math.Exp(-eps)) / 2.0;
        var delt  = Math.Atan(senoheps/(Math.Cos(nab) ) );
        var tao = Math.Atan(Math.Cos(delt) * Math.Tan(nab));

        longitude = ((delt * (180.0 / Math.PI)) + s) + diflon;
        latitude = ((lat + (1 + e2cuadrada * Math.Pow(Math.Cos(lat), 2) - (3.0 / 2.0) * e2cuadrada * Math.Sin(lat) * Math.Cos(lat) * (tao - lat)) * (tao - lat)) * (180.0 / Math.PI)) + diflat;
    }
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If you want to roll your own functions, you can find a lot of useful information in this page:

http://www.colorado.edu/geography/gcraft/notes/coordsys/coordsys.html

I have a couple of functions to convert between lat-lon and UTM (both ways), but they are a bit long to write here.

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    public static void ToLatLon(double utmX, double utmY, string utmZone)
    {
        double latitude = 0;
        double longitude = 0;

        bool isNorthHemisphere = utmZone.Last() >= 'N';

        var diflat = -0.00066286966871111111111111111111111111;
        var diflon = -0.0003868060578;

        var zone = int.Parse(utmZone.Remove(utmZone.Length - 1));
        var c_sa = 6378137.000000;
        var c_sb = 6356752.314245;
        var e2 = Math.Pow((Math.Pow(c_sa, 2) - Math.Pow(c_sb, 2)), 0.5) / c_sb;
        var e2cuadrada = Math.Pow(e2, 2);
        var c = Math.Pow(c_sa, 2) / c_sb;
        var x = utmX - 500000;
        var y = isNorthHemisphere ? utmY : utmY - 10000000;

        var s = ((zone * 6.0) - 183.0);
        var lat = y / (6366197.724 * 0.9996); // Change c_sa for 6366197.724
        var v = (c / Math.Pow(1 + (e2cuadrada * Math.Pow(Math.Cos(lat), 2)), 0.5)) * 0.9996;
        var a = x / v;
        var a1 = Math.Sin(2 * lat);
        var a2 = a1 * Math.Pow((Math.Cos(lat)), 2);
        var j2 = lat + (a1 / 2.0);
        var j4 = ((3 * j2) + a2) / 4.0;
        var j6 = (5 * j4 + a2 * Math.Pow((Math.Cos(lat)), 2)) / 3.0; // saque a2 de multiplicar por el coseno de lat y elevar al cuadrado
        var alfa = (3.0 / 4.0) * e2cuadrada;
        var beta = (5.0 / 3.0) * Math.Pow(alfa, 2);
        var gama = (35.0 / 27.0) * Math.Pow(alfa, 3);
        var bm = 0.9996 * c * (lat - alfa * j2 + beta * j4 - gama * j6);
        var b = (y - bm) / v;
        var epsi = ((e2cuadrada * Math.Pow(a, 2)) / 2.0) * Math.Pow((Math.Cos(lat)), 2);
        var eps = a * (1 - (epsi / 3.0));
        var nab = (b * (1 - epsi)) + lat;
        var senoheps = (Math.Exp(eps) - Math.Exp(-eps)) / 2.0;
        var delt = Math.Atan(senoheps / (Math.Cos(nab)));
        var tao = Math.Atan(Math.Cos(delt) * Math.Tan(nab));

        longitude = (delt / Math.PI) * 180 + s;
        latitude = (((lat + (1 + e2cuadrada * Math.Pow(Math.Cos(lat), 2) - (3.0 / 2.0) * e2cuadrada * Math.Sin(lat) * Math.Cos(lat) * (tao - lat)) * (tao - lat))) / Math.PI) * 180; // era incorrecto el calculo

        Console.WriteLine("Latitud: " + latitude.ToString() + "\nLongitud: " + longitude.ToString());

    }

This is the new code

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