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Does anyone know the proper interpretation of the accuracy measurements returned by getAccuracy()? For instance, are they calculated as:

  • Circular Error Probability (meaning, if i understand correctly, radius of a 50% confidence circle)?

  • Radius of 95% confidence circle?

  • something else?

In addition, what are the actual calculations that are used and how much can we rely on them? Does it depend on the source of the location estimate (GPS vs. network)?

Many thanks for any advice you can give me.

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I think the signal gives that to you, for example the gps signal. And for cell id I think it's based on network reception and triangulation. –  Pentium10 Jun 16 '10 at 12:22
The question was not how the location is obtained it is about the actual definition of the return value of getAccuracy in the location class. –  Janusz Jun 16 '10 at 12:30

6 Answers 6

up vote 15 down vote accepted

To answer one part of the question, the number is the radius of 68% confidence, meaning that there is a 68% chance that the true location is within that radius of the measured point. Assuming that errors are normally distributed (which, as the docs say, is not necessarily true), that means that this is one standard deviation.


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Thanks, Karl. I see they've now updated the documentation, which is very helpful. This exactly is what I was looking for although I think dscheffy's point is also important. –  John Palmer Jan 27 '13 at 8:39
@paracycle Also makes a good point that the accuracy is reported by the provider, who, in the end, can decide to handle it however they want. For example, using DDMS will supply a value of 0.0 for accuracy because you're putting in an exact coordinate. –  karl Jan 27 '13 at 22:05
What if the accuracy returns 1000, does this mean there is a 1000% chance that the real location is in the circle of 1Km –  Aiden Strydom Jul 11 '13 at 17:32
@AidenStrydom, no. If the accuracy returns 1000, it means there is a 68% chance that the real location is within 1000 meters of the provided location. –  karl Jul 31 '13 at 23:00
@Karl - Ah Thanks... I suppose i should really have paid attention to the punctuation marks! Thanks for clearing that up –  Aiden Strydom Jul 31 '13 at 23:24

The location is a tricky task to do, when you have a limited battery life and when there is no GPS signal in buildings and in areas with many big building and etc. But Android makes it a much easier. When you request a location, you just have to specify what accuracy do you need.

If you specify that you want an accuracy for an example *100 meters*, Android will try to get the location and if it can get a location for accuracy 70 meters, it will return it to you, but if Android can get a location with an accuracy higher than 100 meters, your application will wait and will not receive anything till there is a location in such accuracy.

Typically Android will first get the Cell ID and then will send it to Google server, which maps such Cell IDs and the server will return a latitude and longitude with an accuracy which is low for an example 1000 meters. By this time Android will also try to see all WiFi networks in the area an will send information about them too to the Google server and if possible Google server will return a new location with higher accuracy for an example 800 meters.

By this time the GPS will be on. The GPS device needs at least 30 seconds from a cold start to get a fix, so if can get a fix it will return latitude and longitude but again with an accuracy, which will be the highest possible for an example 100 meters. The longer the GPS works, the better accuracy you will get.

Important notice: The first two methods requires an internet connection. If there is no data connection, you will have to wait for the GPS, but if the device is in a building, you will probably get no location.

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That does not really asnswer the question what "100m accuracy" means. –  Tomas Jun 30 '11 at 9:52
@vendor may you please state the reference from which you got this piece of info. your answer helped me to understand how it works, thank you. –  a fair player Mar 20 '12 at 9:40
@a fair player Some of the information is in developer.android.com and I have made some tests with the location based services in Android. –  vendor Mar 26 '12 at 6:15
What API lets you specify accuracy of 100 meters? I see Criteria of ACCURACY_COARSE, ACCURACY_FINE, ACCURACY_HIGH, ACCURACY_LOW, ACCURACY_MEDIUM, but not 100 meters. –  Cris Aug 8 '13 at 0:04

The documentation on getAccuracy says that it returns the accuracy in meters. I would guess that this means if you get a return value of 60 you are somewhere in a circle with a 60 meter radius around the supplied position.

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if i watch to my google maps and my current position you're right... in most cases. It also happened, that my phone showed my position about 2 or 3 kilometers away from my real position...I'm also interested in this issue –  poeschlorn Jun 16 '10 at 12:43
Thanks. I agree that the value returned by getAccuracy is in meters and that it must be the radius of a circle (or perhaps a sphere when altitude is also given in the location estimate). But there should also be a probability associated with it, and it's odd that the documentation does not say what that probability is or how it is arrived at. I've seen one posting online where someone suggested that it might be CEP, but that seemed to be just a guess so I would really like to find a way to confirm if it's that or a 95% confidence circle or something else. –  John Palmer Jun 16 '10 at 16:10
Here are a few links that are useful in understanding the question (but that don't resolve it): users.erols.com/dlwilson/gpsacc.htm groups.google.com/group/android-developers/browse_thread/thread/… –  John Palmer Jun 16 '10 at 16:14

As far as I can see from a quick glance at the Android source code, this is dependent on the hardware of the device and what value it chooses to return.

The GpsLocationProvider.java file has a reportLocation method which gets called by the native code and gets passed the accuracy as a value. Thus, no calculation seems to be happening in the framework at least.

The qcom (which I believe is the Qualcomm) GPS git repo is passing the hor_unc_circular parameter for accuracy which seems to imply that, at least, that implementation is using CER.

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If, as quoted it in the docs, it is an accuracy, then the users actual position is somewhere within QUOTED_LOCATION +/- ACCURACY. So the accuracy defines a radius where you could expect the user to be. What the docs don't say is how sure you can be that the user is within radius - the standard is 95% so I guess this it.

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I'm more interested in the confidence as the question indicates. Could be one of many measurements gpsinformation.net/main/errors.htm –  Samuel Mar 23 '11 at 14:16

I get that you're asking for a definite answer in terms of probability, but I think there are two things to consider here. First off, it's up to the provider to decide what they want to put in this value, so depending on the provider, it may just be a bad guess. Secondly, it may help to think of this as a potential rounding problem. If I'm trying to calculate your location based on a number of inputs, and some of those inputs are only available to a certain number of significant digits, then it's only possible to calculate a location with a given number of significant digits. Think of it this way -- what's "about" one plus "about" one hundred. Probably about one hundred, because the accuracy of one hundred is likely less than the magnitude of 1. If I suddenly say the answer is about 101, then I may end up implying a level of accuracy that wasn't there. However, if I actually specify the accuracy, then I can say that it 100 plus or minus 10 plus 1 plus or minus .1 is 101 plus or minus 10. I get that this is generally referring to something like a 95% confidence level (standard error), but again, that all assumes the provider understands statistics and isn't just guessing.

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Thanks - this is very helpful. On the first issue, my approach with location tracking has been to collect accuracy estimates but also perform a "reality check" by calculating distances and times between successive points and then discarding those that would have required unrealistic velocities (even if, as is sometimes the case, they are reported as having precise accuracy). If you have any other suggestions, I would love to hear them. –  John Palmer Jan 27 '13 at 8:49

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