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I have been trying to find samples of codes in Java where I am able to add a metric distance to a particular coordinate point.

For example, by adding 2 kilometers to Point A's latitude, and subtracting 2 kilometers to Point B's longitude, I would want to obtain a new coordinate point (Point B) that is north west of Point A.

Are there any sample source codes for such a function out there?

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This other post should help. – assylias Dec 21 '12 at 8:55
    
@assylias the post does not take into account that longitude "distance" depends of latitude. For this, and given distances short enough (maybe < 50 km), I would convert to Universal Traverse Mercator, add to the easting and northing, and convert back to whatever your sistem is. – SJuan76 Dec 21 '12 at 9:00
    
Thanks @assylias but that's not really what I'm looking for... – lyk Dec 21 '12 at 9:53
    
@Sjuan76 hi, is the universal traverse Mercator the same as the answer as given below? Sorry I'm not really familiar with that – lyk Dec 21 '12 at 9:54
up vote 2 down vote accepted

If you don't need high accuracy and the distances are small you may assume the Earth is a sphere with approximately R = 6370 km radius. The difference in latitude in radians is then simply dNorth / R, the difference in longitude is dEast / R / cos(lat).

For higher accuracy you have to take into account that the shape of the Earth is more like an ellipsoid.

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I don't need high accuracy as I just need the new coordinates to download maptiles from OSM, so it seems like your idea might work for mine. Can I clarify what is DNorth and DEast? So what do I have to do to add 2 kilometers to a latitude point? – lyk Dec 21 '12 at 9:52
    
dNorth is the distance in km in north direction, dEast is the distance in km in east direction – Henry Dec 21 '12 at 9:57
    
So to clarify: new latitude = old latitude + (dNorth / R), new longitude = old longitude + (dEast / R / cos(old latitude) ) ? for the longitude function is there an order for the division? – lyk Dec 21 '12 at 10:02
    
yes, with all angles measured in radians. new longitude = old longitude + ((dEast / R) / cos(old latitude) ) – Henry Dec 21 '12 at 10:04
    
Will try this out, thank you very much! – lyk Dec 21 '12 at 10:07

I think so,You can do this using Great Circle algorithms.

The shortest distance (the geodesic) between two given points P1=(lat1, lon1) and P2=(lat2, lon2) on the surface of a sphere with radius R is the great circle distance. It can be calculated using the formula:

dist = arccos(sin(lat1) · sin(lat2) + cos(lat1) · cos(lat2) · cos(lon1 - lon2)) · R (1)

For example, the distance between the Statue of Liberty at (40.6892°, -74.0444°)=(0.7102 rad, -1.2923 rad) and the Eiffel Tower at (48.8583°, 2.2945°)=(0.8527 rad, 0.0400 rad) — assuming a spherical approximationa of the figure of the Earth with radius 6371 km — is:

dist = arccos(sin(0.7102) · sin(0.8527) + cos(0.7102) · cos(0.8527) · cos(-1.2923 - 0.0400)) · 6371 km
  = 5837 km 

Another example i found out while exploring is ::

Example:

lat1: 34
lng1: 34

after adding 5km in lat1, new point should be like new_lat1: 34+5km new_lng1: 34 (lng1 will remain same as we only added in latitude)

So u can divide your prob in two steps ::

  1. calculate coordinate using addition.

  2. then calculating new coordinates using subtraction on one obtained in step1

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Sorry I'm kind of confused from your solution. I'm looking to obtain a new coordinate point by adding metric distances to a coordinate, and not to find out the distance between the 2 points. How does the 2 steps you mentioned help me obtain that? – lyk Dec 21 '12 at 9:58
    
May be this link first post will help u... groups.google.com/forum/#!msg/google-maps-js-api-v3/SXBp528Eyt4/… – Prateek Dec 21 '12 at 10:04
    
Hmmm ok, seems like this requires some manipulation of the equation to calculation distance, noted. Thank you! – lyk Dec 21 '12 at 10:07
    
Hi @Prateek, are there formulas out there that has already been manipulated? I'm not very familiar with the trigonometry stuff, I'm afraid that I might do it the wrong way! Also your equation seems to be quite different from the link that you gave me... – lyk Dec 26 '12 at 3:59
    
actually i explored and came to know about the above formula, as a way to calculate distance. Though in your case the link provided will be best. – Prateek Dec 26 '12 at 4:03

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