A quick question about a Lat / Long calculation.

I want to take a value set e.g. Lat: 55.123456 Long -6.123456 and work out the four points that are an arbitrary distance away.

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As the given square, I want to work out the value for Latitude on the left and right side. Thus the red lines are 1.5km from the start point. Likewise for the longitude, the blue lines will be 1.5km from the start point. The output will be 4 points, all distances in kilometres.

In short: Latitude + Y = Latitude Value X kilometers away

Working with iPhone at the moment and its for a very rough database calculation.

EDIT: Just to clarify, the distance is so short that curvature (And hence accuracy) is not an issue.

  • 1
    You know the Earth is (more of) a sphere than a plane, right? – Matt Ball Mar 24 '13 at 21:17
  • And to follow on from Matt's comment, I think the Great Circle Distance is what you're after. – rickerbh Mar 24 '13 at 21:24
  • @Matt, well aware of the sphere :D The distance is so short (Sub 3km) It shouldn't matter. I merely want to add a float value to the existing point to give me a latitude or long point that is a set distance away. – Colin Mar 24 '13 at 21:38

In OBJ-C this should be a decent solution:

float r_earth = 6378 * 1000; //Work in meters for everything
float dy = 3000; //A point 3km away
float dx = 3000; //A point 3km away
float new_latitude  = latitude  + (dy / r_earth) * (180 / M_PI);
float new_longitude = longitude + (dx / r_earth) * (180 / M_PI) / cos(latitude * 180/M_PI);
  • formula is wrong, dx, and dy should be 1500 – AlexWien Mar 25 '13 at 0:06
  • Corrected but its more as an example so the distance is arbitrary. – Colin Mar 25 '13 at 15:09

Well, for rough calculation with relatively small distances (less than 100km) you may assume that there is 40_000_000/360=111 111 meters per degree of latitude and 111 111*cos(latitude) meters per degree of longitude. This is because a meter was defined as 1/40_000_000 part of the Paris meridian;).

Otherwise you should use great circle distances, as noted in the comments. For high precision you also need to take into account that Earth is slightly oblate spheroid rather than a sphere.

  • Thanks begemotv2718. But how would that relate to a float value? I'd prefer not to convert to degree, minutes and secs, only to convert back to a float. – Colin Mar 24 '13 at 21:42
  • Sorry,can not get what you mean. Latitude for point 3km to the north will be LatitudeInitial+(3km/111.111km) as a floating point. Longitude for the point 3km east of initial will be LongitudeInitial+(3km/(111.111km*cos(LatitudeInitial))). For initial point 55.123456 Long -6.123456 this will be 55.123456+3/111.111=55.150456, and for longitude -6.123456+3/(111.111*cos(55.123456))=-6.123456+0.0472185=-6.0762375 – begemotv2718 Mar 24 '13 at 21:52
// parameter: offset in meters
float offsetM = 1500; // 1.5km

// degrees / earth circumfence
float degreesPerMeter = 360.0 / 40 000 000;
float toRad = 180 / M_PI;

float latOffsetMeters = offsetM * degreesPerMeter;
float lonOffsetMeters = offsetM * degreesPerMeter * cos (centerLatitude * toRad);

Now simply add +/- latOffsetMeters and +/- lonOffsetMeters to your centerLatitude/ centerLongitude.

Formula is usefull up to hundred kilometers.

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