# Algorithm for finding my position using the distance from 3 different points

I'm trying to develop an algorithm for a robot, which takes the distance from three different points which are visible to the robot, assumes each point is a center of a circle, and the distance is a radius of a that circle, and then maps the robot position as the intersection of those 3 circles.

I have difficulties to develop the algorithm, and even a math formula would help. Also, I also have the angle between the robot and each point, but don't know where to use it.

Hope someone can help.

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As per the bulletin on the right, we are no longer using the homework tag. –  Erick Robertson Sep 26 '12 at 21:34
The points need to be distinct and non-linear or there may be more than one solution. –  walrii Sep 26 '12 at 21:35
The points are distinct, because the robot's sensor is free to chose his points in every step. About the homework tag - didn't notice that. Sorry. –  max12345 Sep 26 '12 at 21:38

Suppose that the three points are not aligned, which you can verify with

(y1 - y2)*(x1 - x3) != (y1 - y3)*(x1 - x2)

if x1, x2 and x3 are all different; if two of them are equal and the third is not, the three points of course can't be aligned and you needn't check.

We can now reduce to a known solution: