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I was reading this question here:

What datatype to use when storing latitude and longitude data in SQL databases?

And it seems the general consensus is that using Decimal(9,6) is the way to go. The question for me is, how accurate do I really need this?

For instance, Google's API returns a result like:

"lat": 37.4219720,
"lng": -122.0841430

Out of -122.0841430, how many digits do I need? I've read several guides but I can't make enough sense out of them to figure this out.

To be more precise in my question: If I want to be accurate within 50 feet of the exact location, how many decimal points do I need to store?

Perhaps a better question would actually be a non-programming question, but it would be: how much more accurate does each decimal point give you?

Is it this simple?

  1. List item
  2. x00 = 6000 miles
  3. xx0 = 600 miles
  4. xxx = 60 miles
  5. xxx.x = 6 miles
  6. xxx.xx = .6 miles
  7. etc?
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Accuracy of the coordinates depends on WHERE those coordinates are, because the surface of the planet is not a perfect sphere and distance from the poles is a MAJOR MAJOR factor too. 3 decimals places, on average, is about 120 meters/400 feet, though. 4 decimals would be 12meters/40feet, etc... –  Marc B Aug 23 '11 at 21:20
See this question on GIS stackexchange: gis.stackexchange.com/questions/8650/… –  Flimm Oct 10 '13 at 12:52

4 Answers 4

up vote 65 down vote accepted

Accuracy versus decimal places at the equator

decimal  degrees    distance
0        1.0        111 km
1        0.1        11.1 km
2        0.01       1.11 km
3        0.001      111 m
4        0.0001     11.1 m
5        0.00001    1.11 m
6        0.000001   0.111 m
7        0.0000001  1.11 cm
8        0.00000001 1.11 mm

ref : http://en.wikipedia.org/wiki/Decimal_degrees#Accuracy

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If these are at the equator does that mean that these are worst case errors? –  Liath Jan 15 '14 at 9:02
Actually, equator is best case. One latitude and one longitude degree are the same size at the equator (69 miles), but one degree of longitude shrinks to zero as it approaches either of the poles. Here's a very nice explanation: nationalatlas.gov/articles/mapping/a_latlong.html#four –  codingoutloud Jan 23 '14 at 15:31
@codingoutloud Which would make these worst case errors. Or to be pedantic, these are worst case errors for using lat/lon at sea level. At an elevation of 6,378 m, the error increases by 0.1%. –  Scott B Mar 13 '14 at 23:08
@codingoutload: That link is apparently no longer present :( –  Tom Stambaugh Feb 18 at 15:57
|    Decimals    |  Precision  |
|    5           |  1m         |
|    4           |  11m        |
|    3           |  111m       |

If you want 50 ft precision go for 4 digits. So decimal(9,6)

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If you're using SQL Server... It's worth noting that a precision of 1-9 uses 5 bytes. So you may was well use a decimal(9,6) instead of decimal(7,4) and take advantage of the higher accuracy since they both occupy the same amount of space. –  Theo Oct 1 '13 at 22:57
@Theo Thanks, edited –  Gustav Oct 2 '13 at 15:11

The distance between each degree of latitude varies because of the shape of the earth and distance between each degree of longitude gets smaller as you get closer to the poles. So let's talk about the equator, where the distance between each degree is 110.574km for latitude and 111.320km for longitude.

50ft is 0.01524km, so:

  • 0.01524 / 110.574 = 1/7255 of a degree of latitude
  • 0.01524 / 111.320 = 1/7304 of a degree of longitude

You need four digits of scale, enough to go down to ten-thousandths of a degree, with a total of seven digits of precision.

DECIMAL(7,4) should be plenty for your needs.

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I design databases and have been studying this question for a while. We use an off-the shelf application with an Oracle backend where the data fields were defined to allow 17 decimal places. Ridiculous! That's in the thousandths of an inch. No GPS instrument in the world is that accurate. So let's put aside 17 decimal places and deal with practical. The Government guarantees their system is good to "a "worst case" pseudorange accuracy of 7.8 meters at a 95% confidence level" but then goes on to say actual FAA (using their high quality instruments) has shown GPS readings to usually be good to within a meter.

So you have to ask yourself two questions: 1) What is the source of your values? 2) What will the data be used for?

Cell phones are not particularly accurate, and Google/MapQuest readings are probably only good to 4 or 5 decimals. A high quality GPS instrument might get you 6 (within the United States). But capturing more than that is a waste of typing and storage space. Furthermore, if any searches are done on the values, it's nice for a user to know that 6 would be the most he/she should look for (obviously any search value entered should first be rounded to the same accuracy as the data value being searched).

Furthermore, if all you're going to do is view a location in Google Maps or put it in a GPS to get there, four or five is plenty.

I have to laugh at people around here entering all those digits. And where exactly are they taking that measurement? Front door knob? Mailbox out front? Center of building? Top of cell tower? AND... is everyone consistently taking it at the same place?

As a good database design, I would accept values from a user for maybe a few more than five decimal digits, then round and capture only five for consistency [maybe six if your instruments are good and your end use warrants it].

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While I agree that 17 digits is too much, I suggest that 6 is too little if the data is going to be post-processed. When doing things like a radius query ("Answer features within a 0.5 mile radius of this point"), errors -- including truncation -- are magnified. If you need 6 decimal digits on the output of such a query, then the input should start with significantly more. Our shop tends to use DECIMAL(18,15). Our goal is ensure that the db is not the limiting factor in the accuracy of spatial calculations. –  Tom Stambaugh Feb 18 at 15:52

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