Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I am very new to scipy so bare with me please :-)

I have been using mathematica recently to mess around with my data. I have a method of calculating an x,y coordinate from 4 or more distance measurements coming from static receivers (also x,y coords).

The function I use to do this most effectively with the data I have is the mathematica function:

NonlinearModelFit[data, Norm[{x, y} - {x0, y0}], {x0, y0}, {x, y},
                  Weights -> 1/distances, Method->"LevenbergMarquardt"]


data = {{548189.217202, 5912779.96059, 93}, {548236.967784, 5912717.80716, 39},
        {548359.406452, 5912752.54022, 88}, {548358.636206, 5912690.89573, 97}};

distances = {93, 39, 88, 97};

x0, y0 is the solution it finds

The mathematica output to the above is:

FittedModel[{"Nonlinear", {x0 -> 548272.0043962265,
                           y0 -> 5.912735710367113*^6},
            {{x, y}, Sqrt[Abs[x - x0]^2 + Abs[y - y0]^2]}},
            {{1/93, 1/39, 1/88, 1/97}}, {{548189.217202, 5.91277996059*^6, 93},
            {548236.967784, 5.91271780716*^6, 39},
            {548359.406452, 5.91275254022*^6, 88},
            {548358.636206, 5.91269089573*^6, 97}},
            Function[Null, Internal`LocalizedBlock[{x, x0, y, y0}, #1], {HoldAll}]]

x0, y0 are my solution.

So I am not fitting a curve but fitting to a point (with weights inversely proportional to the distance). I have looked around on google but am simply not sure where to start with the scipy function scipy.optimize.leastsq algorithm to introduce the weighting functionality...

Any help with this would be very much appreciated.

So why am I doing this if mathematica does it? Well to call mathematicascript (using subprocess module) from python code is too slow for what I want to do with live data so want to try rewriting in python to see if the speed can be improved....

share|improve this question
Not sure I understand the question: you have a function norm(x,y, x0,y0), and you are minimizing the sum of form norm(x1,y1, x0,y0)/d1 + norm(x2,y2, x0,y0)/d2 + norm(x3,y3, x0,y0)/d3+... by varying x0,y0, where x1,y1, x2,y2, ... are the known parameters -- or is it something else? – ev-br Mar 11 '13 at 18:07
@mjharrison I have reformatted your code for readability, feel free to revert the edit if my formatting doesn't make sense in Mathematica. – Jaime Mar 11 '13 at 21:27

An equivalent approach (gives exact same x0,y0) in mathematica, perhaps this is easier to think about porting to python..

       Total @ ((1/#[[3]]) (Norm[#[[1 ;; 2]] - {x0, y0}] - #[[3]])^2  & /@ 
               data) , {x0, y0}]

Note I explicitly put the weight (1/#[[3]]) into the error criteria.

same thing a bit more readable ..

  err[{x_, y_, z_}] := (1/z) (Norm[{x, y} - {x0, y0}] - z)^2
  FindMinimum[ Total @ (err  /@ data) , {x0, y0}]
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.