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if length of geohash string is more, it is more accurate. But is there any direct relationship like if length is 7 it is providing 100 meter accuracy,

i.e. if two geohash (and either of their bounding box) is having first 7 char matching, both should be near 100 meter etc?

I am using geohash for finding, all near-by location for given geohash, with their distance

Also any directway to calculate distance between two geo-hash? (one way is to decode them to lat/lng, and then calculate distance)


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Not a single answer gives how much string length needed for 1 meter precesion –  Atul Jul 8 at 11:03

4 Answers 4

up vote 7 down vote accepted

Saw a lot of confusion around geohashing so I am posting my understanding so far. The principle behind geohash is very simple, you can create your own version. For instance consider following geo-point,


In the above example, 156 represents degrees, 2 digits after decmal (34) represents decimal minute and rest, (34.5334) represents seconds.

If you remember school geography circumference of earth at equator is about 40,000kms and, number of degrees around the earth (latitudes or longitudes) is 360. So at the widest point each degree of latitude and longitude span equals to about 110kms (40,000/360).

So if you encode the above coordinates as, "156-23" (including negative sign), this will give you (110kmx110km) box.

You can go on and increase the precision, Fist digit of minute (156.3-23.3) will give you (10kmx10km) box (each minute span equals 1km).

Increase this to include first digit of second you get (100mx100m)box, each extra digit will add precision to another degree. Geohashing is just the way to represent the above figure in an encoded form. You can happily use the above format as well!

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Was curious about this myself. If its any good to anyone I put together a spreadsheet here Not 100% sure its right - feel free to comment if you find a problem.

Judging by graph below, using 6 to 10 digits gives accuracy ~1km to ~1m at 60 degree lat. enter image description here

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Here are the formulas for height and width in degrees of a geohash of length n characters:

First define this function:

    parity(n) = 0 if n is even otherwise 1


    height = 180 / 2(5n-parity(n))/2 degrees

    width = 180 / 2(5n+parity(n)-2)/2 degrees

Note that this is the height and width in degrees only. To convert this to metres requires that you know where on the earth the hash is.

Code for this in java is at http://github.com/davidmoten/geo.

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I know this post is old, but google keeps bringing this post up for anything related to 'geohash' and 'precision', so... I think the second forumla is wrong, the '-1' should be outside of the /2, i.e. I think the second should be: width = 180 / (2^(((5n+parity(n))/2)-1)) –  stripybadger Mar 19 '14 at 10:56
I agree, thanks! Luckily the code in the project also agrees. I just documented it badly. –  Dave Moten Mar 21 '14 at 3:22

Also any directway to calculate distance between two geo-hash? (one way is to decode them to lat/lng, and then calculate distance)

That is what you should do. Think of the geohash as just another representation of a latitude and longitude as a pair of printed decimal numbers are likewise. If I gave you a pair of lat & lon strings, you would parse them to numbers (in your programming language of choice), and then do the math. It's no different with geohashes -- decode to lat & lon then do the math.

Be very careful with any reasoning you are attempting to do with inferring closeness based on the length of the common prefix between a pair of points. If there is a long common prefix, then they are close, but the converse is not true! -- i.e. two points with no common prefix could be a millimeter apart.

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Thanks David, Any idea about first query as well? –  Raxit Sheth Nov 19 '12 at 20:27
Use the table in Wikipedia's Geohash definition. I've done Excel formulas before to see the precision and I think I've coded in Java too. –  David Smiley Nov 20 '12 at 7:57
Thanks, much helpful –  Raxit Sheth Dec 5 '12 at 7:47
You can do the binary distance. It's the same for small distances. –  Gustav Feb 21 '13 at 19:12

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