# How many significant digits should I store in my database for a GPS coordinate?

I have in my MySQL database both longitude and latitude coordinates (GPS data).

It's currently stored as:

``````column     type
------------------------
geolat     decimal(10,6)
geolng     decimal(10,6)
``````

Question: Do I really need a data type as large as `decimal(10,6)` to properly store coordinate data?

Since I have a combined index on the longitude and latitude, this index size is huge. If I can make it smaller without compromising anything, that would be great.

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Also, I do realize that MySQL has a SPATIAL plugin - but my webhost does not have that installed unfortunately, so that's not an option (in case anyone recommends it) –  teddyk Dec 22 '09 at 16:31
Welcome to StackOverflow! Great first question. –  Jonathan Sampson Dec 22 '09 at 16:32
@Jonathan, thanks! –  teddyk Dec 22 '09 at 16:34
And don't forget, you will also need to know the geographic coordinate system, or else your latitude/longitude values are useless. Most GPS units these days will give you answers in WGS84, but you should probably confirm the data before you save it. –  Daniel Pryden Dec 22 '09 at 16:58

WGS84 datum are usually given as coordinates in a fully decimal notation, usually with 5 decimal places, so for latitude (-90 to +90) you could use decimal(7, 5) (-90.00000 to 90.00000), for longitude you could use decimal(8, 5) (-180.00000 to 180.00000).

The DECIMAL/NUMERIC data type is a fixed precision scaled integer and both positive and negative parts of the range are always available - they do not affect the precision or scale (there is obviously storage required for it, but you don't get a choice about that for DECIMAL)

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Does the sign (positive/negative) not take up space? meaning, wouldn't "-90.12345" take up 8 digital and not 7 –  teddyk Dec 22 '09 at 16:50
Yes, it takes up space in the database, but the space required in the database for a given DECIMAL specification always allows a sign. I'm not familiar with the internal storage requirements of MySQL, but for SQL Server, a decimal takes 5 bytes (1-9 digits)/9 bytes (10-19 digits)/13 bytes (20-28 digits) /17 bytes (29-38 digits) depending on digits of precision specified (it is independent of scale, obviously). –  Cade Roux Dec 22 '09 at 16:59
Google Maps operates on 6 decimal places. Zoom in on your house, right click it on the map, then choose "Center on this position". Click the link button just outside the map, top left side, then find the GPS coordinates in the link URL. It was 6 decimals when I tried it. –  Andreas Larsen Nov 25 '12 at 14:12
If your source always gives you 6 decimal places of precision then you're ok with a field that accepts precision specifications. But, be careful storing from a source that has less precision than you have specified. I your source gives you low precision data like ".5872" and you store store this in a precision field with 6 decimal places you will get ".587200" which looks like a high precision number. If your sources have different levels of precision store it in a character field. –  benrifkah Oct 4 '13 at 21:09

I've always worked with six digits after the decimal. I used to do GIS work under a military contract and this was sufficient.

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So, are you saying that I could change it to "decimal(6,6)" and be alright? –  teddyk Dec 22 '09 at 16:32
But as Jonathan notes, it really does depend on how precise you want. From my understanding, the six digit precision got us down to somewhere around +/- 1 meter. This was important because we were keeping track of bunkers full of chemical weapons. –  Steve Elmer Dec 22 '09 at 16:35
I believe the "10" is the size of the whole field, isn't it? You will need to accommodate +/- xxx.xxxxxx for longitude and +/- xx.xxxxxx for latitude. –  Steve Elmer Dec 22 '09 at 16:37
This is for a real estate application where we want to store the location of your houses/homes. So it doesn't need to be as accurate as +/- 1 meter. Something like +/- 10 meters would probably be acceptable –  teddyk Dec 22 '09 at 16:39
+/- 10 meters is pretty big - approx 65ft - when rendering on a map, you might find your house showing up in the middle of the street. –  Steve Elmer Dec 22 '09 at 16:43

Keep in mind that it's easier to reduce data than it is to increase data. Usually, increasing data accuracy isn't even possible short of remeasuring. And remeasuring comes at a cost. Knowing nothing else of your situation or the industry, I would say capture as much data/specificity as possible.

The data that you actually use can be culled from this set. If you end up needing a higher degree of specificity, you can always recalculate without remeasuring.

Also, I'm not sure that indexing raw data is the best thing to do since it isn't a discrete set of elements. Creating a table of less accurate/smaller data points would make the indexes much smaller.

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Always ask this sort of question when thinking about storing data: What will it be used for? What precision/range/whatever is needed to accomplish this? –  mlo Dec 22 '09 at 18:14

if this is for real estate do you really have so many houses that 2 bytes saved per row is going to be that noticeable? I'd keep as much precision as possible unless there was a good reason not to.

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I'm more concerned about the size of my index since I have a combined index on both the longitude and latitude. So right now, my index size is decimal(10,6) + decimal(10,6) in size. Which is very large for an index. –  teddyk Dec 22 '09 at 17:03
was going to reply with spatial indexing - but noticed your comment saying you can't use it, hence why you are having these problems. –  jk. Dec 22 '09 at 17:12

That depends on how precise you want your locatability to be. Obviously the larger the more precise, and the smaller the more broad your results will be. I'd suggest keeping your values larger, as it isn't really much data anyway.

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This is only to store geo-data for house/home location (real estate app). So it doesn't need to be super accurate but close. –  teddyk Dec 22 '09 at 16:33

The regular GGA sentance in a NMEA Lat/lon output is only 3decimal places roughly 10m resolution at the equator. Some brands add a custom extra digit to give 1m.

4 digit deg.mm mm/1000 is also common.

If you are using high end precision RTK-GPS you might need more places to get mm precision

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You can also try storing (and/or working with) your coordinates in different units. One project I worked on, all of our coordinates were in milliarcseconds stored as longs (maybe ints, it's been a couple years). This was done partially for speed and for storage space (this was an embedded system). But the same logic could apply here.

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If all coordinates are in a specific area, fix some central point (i.e. average current points and round to get a number you can say out loud) and then store coordinates as relative to this point. That way you can probably skip the first 2-4 most significant digits which makes for big savings. But remember to handle this data only via a Class or VIEW that gives back true WGS84 coords.

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