First of all, I am trying to do all this disaster in c# (.net 4) so if you come up with some code to help me that would be appreciated but really anything would help at this point.

I have a situation where I have a device that can only get GSM Cell information (incidentally via the AT+KCELL command) so I have a collection of values about cell towers (each has LAC, MCC, MNC, Cell ID, Signal Strength and the first Timing Advance). I think, therefore, I am in a good place to be able to come up with some sort of longitude and latitude coordinate (albeit inaccurate, but, well meh). This is where I am reaching out for help because now my little brain is confused...

I can see various services that provide cell code resolution (Google, Open Cell ID, etc) and they take LAC,MCC etc as arguments and return a coordinate. I figure that what they return would, therefore, be the coordinate of the given tower I pass in. So in my case I could send off all the LACs etc that I have and get back a collection of longitude and latitudes. Brilliant, but that is not where my device is. Now I think I need to do some kind of triangulation and this is where my lack of knowledge is hurting me.

So am I right so far? Assuming I am, how do I perform this calculation (is there something out there that will tell me what to do with all these numbers or, even better, some open source library I can reference and feed all this stuff into to get something sensible)?

I'm assuming that I would need to use the timing advance to work out some approximate distance from a cell tower (maybe using the signal strength somehow) but what do I have to do? As you can tell - I am way out of my depth here!

For example, this is something I might get back from the aforementioned AT command:


breaking it up and parsing it I would get (I hope I parse this right - there is a chance there is a bug in my parsing routine of course but it looks reasonable):

Number of cells: 5

Cell 1

LAC: 5502
MNC: 1
MCC: 232
Cell ID: 33025
Signal: 80
BSIC: 33
Timing advance: 0
Longitude: 14.2565389
Latitude: 48.2248439

Cell 2

LAC: 5502
MNC: 1
MCC: 232
Cell ID: 33015
Signal: 55
Longitude: 14.2637736
Latitude: 48.2331576

Cell 3

LAC: 5502
MNC: 1
MCC: 232
Cell ID: 33035
Signal: 55
Longitude: 14.2488966
Latitude: 48.232513

Cell 4

LAC: 5502
MNC: 1
MCC: 232
Cell ID: 2515
Signal: 39
BSIC: 32
Longitude: 14.2488163
Latitude: 48.2277972

Cell 5

LAC: 5502
MNC: 1
MCC: 232
Cell ID: 60920
Signal: 21
BSIC: 33
Longitude: 14.2647612
Latitude: 48.2299558

So with all that information how do I find, in the most accurate way, where I actually am?

  • any chance of posting the data you get.. at least 50% because i am curious ;-)
    – user359135
    Commented Apr 26, 2012 at 8:40
  • I think that there may be different techniques for doing this dependent on exactly what data you have. I could put an answer up but it might be best to gather up all the data you can get and post a question on:math.stackexchange.com unless there is someone who has done this before and is up for sharing the specific info
    – user359135
    Commented Apr 26, 2012 at 8:59
  • 1
    does anyone know of an umts usb-device that supports this functionality? I've got one from huwei and one from alcatel but none supports AT+KCELL Commented Feb 7, 2013 at 19:37
  • 1
    @ppumkin, Well it has been a while but I think it was a Sagemcom HiLo V2 module - info here: support.sagemcom.com/site/livret/…
    – kmp
    Commented Oct 22, 2014 at 10:40
  • 2
    Never mind. I was looking at a 2010 doc, the 2014 doc has a vendor specific command 'AT+CNETSCAN' that gives you all cells with no sim card or connected cells with the connected network. Pretty awesome for 9GBP :)
    – Piotr Kula
    Commented Oct 22, 2014 at 11:25

2 Answers 2


I can help you with a bit of the theory.

Triangulation is basically finding the intersection point of 3 circles.

Each mobile tower is the center of a circle. The size of the circle is relative to the signal strength of that tower.

The place where the 3 circles overlap is where the user is.

You can do some very basic triangulation as follows:

3 Towers at 

With signal strengths s1, s2, s3

We calculate the weight of each signal. Essentially a number from 0 to 1 for each tower where the sum of the weights adds up to 1.

Weighted signal w1, w2, w3 where:
 w1 = s1/(s1+s2+s3)
 w2 = s2/(s1+s2+s3)
 w3 = s3/(s1+s2+s3)

User will be at
x: (w1 * tx1 + w2 * tx2+ w3 * tx3)
y: (w1 * ty1 + w2 * ty2+ w3 * ty3)

Here is a working example using the values from your question:

s1 = 80
s2 = 55
s3 = 55
s4 = 55
s5 = 21

w1 = 80 / ( 80 + 55 + 55 + 55 + 21 ) 
w2 = 55 / ( 80 + 55 + 55 + 55 + 21 ) 
w3 = 55 / ( 80 + 55 + 55 + 55 + 21 ) 
w4 = 55 / ( 80 + 55 + 55 + 55 + 21 ) 
w5 = 21 / ( 80 + 55 + 55 + 55 + 21 ) 

w1 = 0.3007519
w2 = 0.2067669
w3 = 0.2067669
w4 = 0.2067669
w5 = 0.0789474

1. Longitude: 14.2565389
1. Latitude: 48.2248439

2. Longitude: 14.2637736
2. Latitude: 48.2331576

3. Longitude: 14.2488966
3. Latitude: 48.232513

4. Longitude: 14.2488163
4. Latitude: 48.2277972

5. Longitude: 14.2647612
5. Latitude: 48.2299558

Location Longitude = 
 14.2565389 * 0.3007519 + 
 14.2637736 * 0.2067669 + 
 14.2488966 * 0.2067669 +
 14.2488163 * 0.2067669 +
 14.2647612 * 0.0789474

Location Latitude: = 
 48.2248439 * 0.3007519 + 
 48.2331576 * 0.2067669 + 
 48.232513 * 0.2067669 +
 48.2277972 * 0.2067669 +
 48.2299558 * 0.0789474

Result Longitude: 14.255507
Result Latitude: 48.2291628

  • 1
    Thanks for answering - I have since included above the longitude and latitude values (according to the Google cellcode resolution service) for each of the cells so I plugged the three with the largest signal strength into the calculations you give. It comes up with a location in Africa (x: 16.0764901666667 y: 4.75214030350877) but all of the cells are located in Austria so that doesn't seem quite right - any chance there is a typo in there?
    – kmp
    Commented Apr 26, 2012 at 11:36
  • Yeah i shouldn't have been dividing by 3. See if that is any better. I updated the question with an example using your values. It's in Austria now :-) Commented Apr 26, 2012 at 12:11
  • 2
    ...And its assuming all towers have the same strength, height, interference etc. Just had an idea on how to get an error radius, you could use alternating selections of towers and look for similarities/differences in the triangulated point. Also over a period of time (repeat the above several times over a few seconds to alleviate erroneous spikes/drops in strength) Commented Dec 11, 2014 at 15:34
  • 3
    Signal is usually a negative value in dBm. So, the lower absolute value the better is signal and cell tower is closer. In this answer it means that weight of the signal with lower absolute value must be greater. Commented Aug 23, 2016 at 20:29
  • 1
    This formula is wrong. Let's simplify to round numbers. We have 3 cells: a(1,2), b(2,3) and c(2,1). And our phone is at (2,2). Signal is therefore 1 for all 3 cells. So factors w1,w2,w3 are all 1/3 X=(1/3 + 2/3 + 2/3) = 5/3 (should be 6/2=2) Y=(2/3 + 3/3 + 1/3) = 6/3 = 2 (this is ok) Also note that circle around tower is for omni antenas, but in practice this antenas are rarely used, they are rather sectored (like a pie). Within the sector the power is not the same in every direction, it is in the middle where on the ends it may drop to 3 or more dB.
    – Marvin
    Commented Aug 31, 2017 at 9:46

This is not an answer really but its a starter and I might add more to it:

The cell ids are published it seems:


I found this link from this wiki page that has links to other cell id data sources: http://en.wikipedia.org/wiki/Cell_ID )

see the bottom of the page the is a link to the cell id data:


also i found this youtube video where a guys is playing around with some apps that have cell tower locations it seems:


possibly between the cell ids and signal strength you can make a guess..

but AFAIK for general triangulation you need to know the exact location of at least three towers and your exact distance from them (this could be a rough distance with signal strength but it may just be too in accurate).

it seems like wikipedia is saying its done in this way.. use a combination of which cell you are in, the closest tower and signal strengths to get your location:


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