# calculating a gps coordinate given a point, bearing and distance

I have a problem which draws my back in some project for some time now.

Im basically looking to trap a polygon using x,y points drawn by some script ive written. lat1,lon1 are the center gps cords of the polygon and im looking for its surrounding polygon.

here is a part of my code in python:

``````def getcords(lat1,lon1,dr,bearing):
lat2=asin(sin(lat1)*cos(dr)+cos(lat1)*sin(dr)*cos(bearing))
lon2=lon1+atan2(sin(bearing)*sin(dr)*cos(lat1),cos(dr)-sin(lat1)*sin(lat2))
return [lat2,lon2]
``````

my input goes like this: lat1,lon1 - are given in decimal degrees. -dr is the angular computed by dividing the distance in miles by the earth's -raiuds(=3958.82) -bearing between 0-360 degrees.

however for the input getcorsds1(42.189275,-76.85823,0.5/3958.82,30) i get [-1.3485899508698462, -76.8576637627568], however [42.2516666666667,-76.8097222222222] is the right answer.

as for the angular distance i calculate it simply by dividing the distance in miles by the earth's raiuds(=3958.82).

anybody?

Why don't you use nice libraries?

``````from geopy import Point
from geopy.distance import distance, VincentyDistance

# given: lat1, lon1, bearing, distMiles
lat2, lon2 = VincentyDistance(miles=distMiles).destination(Point(lat1, lon1), bearing)
``````

For lat1, lon1, distMiles, bearing = 42.189275,-76.85823, 0.5, 30 it returns 42.1955489, -76.853359.

• I have tried to apply this solution in QGIS for points in EPSG:4326 but the result is not the proper one, it seems there is problem with the bearing, for example when I try bearing = 0 the new point is located in ~90º Any clue about the potential problem? I am using PyQGIS to create the layers – Javier Apr 17 '17 at 17:03
• Don't use `geopy`! It's no longer maintained and have become problematic. – not2qubit Jan 29 '18 at 6:11

The sin and cos functions expect their arguments in radians, not in degrees. The asin and atan2 functions produce a result in radians, not in degrees. In general, one needs to convert input angles (lat1, lon1 and bearing) from degrees to radians using `math.radians()` and convert output angles (lat2 and lon2) from radians to degrees using `math.degrees()`.

Note that your code has two other problems:

(1) It doesn't allow for travel across the 180-degrees meridian of longitude; you need to constrain your answer such that -180 <= longitude_degrees <= +180.

(2) If you are going to use this function extensively, you might like to remove the redundant calculations: sin(lat1), cos(dr), cos(lat1), and sin(dr) are each calculated twice.

``````from geopy import Point
from geopy.distance import vincenty

distKm = 1
lat1 = 35.68096477080332
lon1 = 139.76720809936523

print 'center', lat1, lon1
print 'north', vincenty(kilometers=distKm).destination(Point(lat1, lon1), 0).format_decimal()
print 'east', vincenty(kilometers=distKm).destination(Point(lat1, lon1), 90).format_decimal()
print 'south', vincenty(kilometers=distKm).destination(Point(lat1, lon1), 180).format_decimal()
print 'west', vincenty(kilometers=distKm).destination(Point(lat1, lon1), 270).format_decimal()
``````

result is

``````center 35.6809647708 139.767208099
north 35.6899775841, 139.767208099
east 35.680964264, 139.778254714
south 35.6719519439, 139.767208099
west 35.680964264, 139.756161485
``````
• Don't use `geopy`! It's no longer maintained and have become problematic. – not2qubit Jan 29 '18 at 6:10
• @not2qubit That issues was resolved. Is there further evidence that we should stay clear of it? – Chris Jan 4 at 20:11
• For a better understanding, see this answer. – not2qubit Jan 5 at 19:42
• geopy had a release six weeks ago, and eight last year. It would seem that sometime after @not2qubit 's comment, someone picked it up. – hlongmore Jan 30 at 1:14
• I'm glad that someone tries to maintain their own code base, but unfortunately some of the most basic info/documentation is still missing from the repo. With the result that the common user have no idea what they are calculating and how. – not2qubit Jan 30 at 10:21

result is `Too many values to unpack`
``````from geopy import Point