I'm writing a mapping application that I am writing in python and I need to get the lat/lon centroid of N points. Say I have two locations

a.lat = 101
a.lon = 230

b.lat = 146
b.lon = 200

Getting the center of two points is fairly easy using a euclidean formula. I would like to be able to do it for more then two points.

Fundamentally I'm looking to do something like http://a.placebetween.us/ where one can enter multiple addresses and find a the spot that is equidistant for everyone.


Have a look at the pdf document linked below. It explains how to apply the plane figure algorithm that Bill the Lizard mentions, but on the surface of a sphere.

poster thumbnail and some details http://img51.imageshack.us/img51/4093/centroidspostersummary.jpg
Source: http://www.jennessent.com/arcgis/shapes_poster.htm
There is also a 25 MB full-size PDF available for download.
Credit goes to mixdev for finding the link to the original source, and of course to Jenness Enterprises for making the information available. Note: I am in no way affiliated with the author of this material.

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    This is a definite improvement. I've been doing a lot of work with GIS lately, so I just assumed that this was understood. That's a terrible assumption in a general forum. +1 – Bill the Lizard Dec 9 '08 at 19:03
  • Thank you. Let's just hope it is all worthwile for chews. – e.James Dec 9 '08 at 19:26
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    That PDF is missing. Check this instead [24MB!] jennessent.com/downloads/graphics_shapes_poster_full.pdf – mixdev Feb 16 '10 at 10:03
  • @mixdev: Thank you for the link. I have updated my answer. – e.James Feb 17 '10 at 2:25
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    Sorry, @Winbros. I do not have a sample implementation or pseudocode. The Wikipedia atricle and the poster both provide the background math. It should not be too difficult to translate into code. Just a lot of loops and floating point operations :) – e.James Dec 31 '10 at 23:15

Adding to Andrew Rollings' answer.

You will also need to make sure that if you have points on either side of the 0/360 longitude line that you are measuring in the "right direction"

Is the center of (0,359) and (0, 1) at (0,0) or (0,180)?
  • This is the main reason why my app treats the east hemisphere completely separately from the west hemisphere. For instance, there isn't a "extents of the United States", there is a "US-E" and "US-W" and I combine them as needed. – Paul Tomblin Dec 9 '08 at 18:32

If you are averaging angles and have to deal with them crossing the 0/360 then it is safer to sum the sin and cos of each value and then Average = atan2(sum of sines,sum of cosines)
(be careful of the argument order in your atan2 function)


The math is pretty simple if the points form a plane figure. There's no guarantee, however, that a set of latitudes and longitudes are that simple, so it may first be necessary to find the convex hull of the points.

EDIT: As eJames points out, you have to make corrections for the surface of a sphere. My fault for assuming (without thinking) that this was understood. +1 to him.


The below PDF has a bit more detail than the poster from Jenness Enterprises. It also handles conversion in both directions and for a spheroid (such as the Earth) rather than a perfect sphere.

Converting between 3-D Cartesian and ellipsoidal latitude, longitude and height coordinates


Separately average the latitudes and longitudes.

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