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I tried to implement a simple GPS tracker. Therefore is used

lm = (LocationManager) getSystemService(Context.LOCATION_SERVICE);
lm.requestLocationUpdates(LocationManager.GPS_PROVIDER, 1000, 0, this);  

Then i used the

public void onLocationChanged(Location location) {

method to read the altitude of my current location.

But i dont really know what Location.getAltitude() returns. The document says it returns the altitude. But is this in meters? or feets? if i put the phone on the desk next to me, this value changes between 500 and -500??

How does this really work???

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You are aware that there is only one country in the world that officialy uses feed, arn´t you? Two more have not officialy adopted anything. And the rest of the planet officialy uses metres. –  Martin May 20 '11 at 11:38
Still, this isn't something best left to assuming (we all know where assuming gets us in programming). Especially since the country you speak of is where google is headquarted. Lets just agree that the documentation could be improved. –  snapfractalpop Feb 25 '12 at 16:19
Which countries have not adopted any official unit for lenght/ distance? –  Ascorbin Jun 6 '13 at 13:15

5 Answers 5

up vote 20 down vote accepted

The altitude value you get is in meters from the gps (WGS84) reference ellipsoid and not from the geoid.

From my own experience the GPS are really bad at altitude values.

I read this on the GPS Status FAQ:

GPS does not report the height above the mean sea level, rather the GPS system compares the height to the WGS84 reference ellipsoid which may be above or below the actual sea level. In different parts of the earth it can be off by more than 200 meters (depending on the mass distribution of Earth). For example the geoid's surface around Florida is above the mean sea level by a good 30-40 meters, which means that standing on the shore would show you -30m as altitude. This is normal, and not an error, and caused by the fact that the altitude is relative to an artificial reference surface and not to the sea level. If you are interested in this topic, I recommend to read Mean Sea Level, GPS, and the Geoid.

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Is it fair to say that the measurements are "precise but not accurate" in a fairly localized setting? In other words, can GPS be used to accurately measure relative altitude between nearby points? –  snapfractalpop Feb 25 '12 at 16:23
@snapfractalpop: No, GPS is not good for altitude. You should use a barometer to measure the altitude, newer Android phones has that, e.g. Nexus Galaxy. –  Jonas Feb 25 '12 at 16:58
thank you, good to know. would a barometer be problematic due to weather disturbances? –  snapfractalpop Feb 25 '12 at 22:49

As far as I'm aware its meters above sea level, however I don't think its very accurate.

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thanks. but 1000 meters difference is not only not very accurate but either totally useless? –  RoflcoptrException May 8 '10 at 12:09
yes. Don't use it inside a building. –  Lohoris May 9 '10 at 9:06

I assume that your desk is located inside a building. If you get a GPS fix in a building you shouldn't expect the accuracy to be very high. Have to tried getting the accuracy of the fix by calling getAccuracy()?

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yes its located in a building but i put it on the window frame ;) thanks for the getAccuracy tip –  RoflcoptrException May 9 '10 at 11:29

old post, i rekon, but someone might still be interested. while listening to GPS, you can parse NMEA GPGGA sentence (http://aprs.gids.nl/nmea/#gga), in which there is the geoid height (Height of geoid above WGS84 ellipsoid). just subtract this heigh from the getAltitude returned value, one and you'll have a more accurate elevation value.

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Gps simply measures the time a known signal is sent from several satellites. The more satellites in view of your Gps receiver the more accurate your position will be determined relative to those satellites. While the system is prone to some error- background noise (the satellite signal is relatively weak and space is relatively noisy), low precision time piece in your receiver, GDOP: geometric dillution of precision (all satellites grouped in one corner of sky), refraction of the signal due to the ionosphere changing heights,- overall it is very accurate in determining your distance from a satellite. Geometrically you need at least 3 satellites in view to get a position and a 4th to get altitude. More satellites contribute to greater accuracy and in some more complex receivers (not our phones but specifically aviation applications) RAIM: receiver autonomous integrity monitoring, is provided to forecast accuracy in an area and time ie before an aircraft lands...

Altitude is problematic for the gps system because the earth does not curve at mathematical constant. So while the system knows where you are relative to the satellite it must now overlay that on a mathematical model of the earth. In aviation the more accurate Gps receivers must have altitude supplemented with barometers and in some receivers enhanced position due to a known surveyed point comparison (WAAS and LAAS).

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