# Adding distance to a GPS coordinate

I'm trying to generate some points at random distances away from a fixed point using GPS.

How can I add distance in meters to a GPS coordinate? I've looked at UTM to GPS conversion but is there a simpler method to achieve this?

I'm working on Android platform just in case.

Cheers, fgs

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• P0(lat0,lon0) : initial position (unit : degrees)
• dx,dy : random offsets from your initial position in meters

You can use an approximation to compute the position of the randomized position:

`````` lat = lat0 + (180/pi)*(dy/6378137)
lon = lon0 + (180/pi)*(dx/6378137)/cos(lat0)
``````

This is quite precise as long as the random distance offset is below 10-100 km

Edit: of course in Java Math.cos() expects radians so do use `Math.cos(Math.PI/180.0*lat0)` if lat0 is in degrees as assumed above.

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Hi, is 6378137 the radius of the earth? Thanks! –  fgs May 15 '10 at 16:36
Yes (in meters as always). More precisely it is the semi-major axis of the WGS84 ellipsoid, so the radius of the Earth at the equator. –  Stéphane May 15 '10 at 18:59
This wasn't quite working for me. The longitude offset was always double what it should have been. Change it to the following to correct:` lat = lat0 + (180/pi)*(dy/6378137) lon = lon0 + (180/pi/2)*(dx/6378137)/cos(lat0) ` –  GeekyMonkey Mar 9 '11 at 11:20
mmm... My formulas seem right, and they work fine on my test data... Can you give me your input data and maybe your code? –  Stéphane Apr 8 '11 at 7:52
I'd probably use the mean radius of 6371.0 KM instead of the radius at the equator. Odds are the area you're referencing is between the semi-major and semi-minor axes. If you need more accuracy, use the Vincenty formula for ellipsoids, movable-type.co.uk/scripts/latlong-vincenty.html. –  Phil Jan 10 at 18:34

A detailed outline is given at http://www.movable-type.co.uk/scripts/latlong.html.

If you, somewhere, need to interconvert longitude/latitude to UTM coordinates (the ones used in GPS) you may want to have a look at http://www.uwgb.edu/dutchs/UsefulData/UTMFormulas.htm

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Hi! thank you so much, the links are indeed what i need. Thank you. :D –  fgs May 15 '10 at 16:29

To take a square I'm use this:

`````` private double[] getBoundingBox(final double pLatitude, final double pLongitude, final int pDistanceInMeters) {

final double[] boundingBox = new double[4];

final double degLatKm = 110.574235;
final double degLongKm = 110.572833 * Math.cos(latRadian);
final double deltaLat = pDistanceInMeters / 1000.0 / degLatKm;
final double deltaLong = pDistanceInMeters / 1000.0 /
degLongKm;

final double minLat = pLatitude - deltaLat;
final double minLong = pLongitude - deltaLong;
final double maxLat = pLatitude + deltaLat;
final double maxLong = pLongitude + deltaLong;

boundingBox[0] = minLat;
boundingBox[1] = minLong;
boundingBox[2] = maxLat;
boundingBox[3] = maxLong;

return boundingBox;
}
``````

This returns an array with 4 coordinates, with them you can make a square with your original point in center.

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