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I want to have an estimation of the location of a user using the surrounding cell towers. For each tower, I have a location and a signal strength. Now I use a simple means of the coordinates but it is not very accurate (the user is not necessarily between the two towers).

I guess the solution is to draw a circle around each tower (the less the signal strength is, the larger it will be) and them compute the intersection between the circles. I usually don't have more than 3 cell towers.

Any idea how ? I found the Delaunay triangulation method but I don't think it applies here.

Thank you

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1 Answer 1

up vote 3 down vote accepted

You need to convert each signal strength to an estimate of distance and then use each distance (as the radius of a circle) in order to triangulate. You'll need at least three transmitters to resolve ambiguity, and accuracy will not be great, since signal strength is only very approximately related to distance and is affected by numerous external factors in the real world. Note that in ideal conditions, signal strength follows an inverse square law with distance.

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That was the idea I had (saying something like if signal is 0-10 1000m, 11-20 500m,...). But how can I compute the intersection between circles after ? I know that the more cell I have, the better it will be but I just want to improve that just using the coordinates of the closest tower. –  Martin Trigaux Mar 13 '12 at 11:35
It's pretty easy to calculate the intersection points of two circles - do this for the strongest pair and then maybe use the third radius to resolve the ambiguity. Ideally you should add some "slack" to each radius so that you get an area of intersection rather than just a point. –  Paul R Mar 13 '12 at 11:45
Interesting answer. Will the signal become weak or none when it is confined in a room or say elevator though the signal tower is beside? Then what will the accuracy of the position of the user then? –  Jasonw Mar 13 '12 at 13:00
@Jasonw: that's the kind of thing I meant by "numerous external factors" in the answer above - the inverse square law for signal strength only applies with any real accuracy in a free field. –  Paul R Mar 13 '12 at 13:19
Yes, E and F would be the two intersections - you can then use a third distance and center to resolve the ambiguity. –  Paul R Mar 13 '12 at 16:09

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