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I have a set of data that looks likes the following:

!Sr.#    x-coord.    y-coord     potential at (x,y)
  1       0.0000     1.0000      0.3508
  2       0.7071     0.7071      2.0806
  .       ....       ....        ....
  .       ....       ....        ....
 1000    0.0000     -1.0000      0.5688

I need to generate a 2D contour for the above data where the value of the potential will be plotted at the corresponding (x,y) location on the 2D contour map. I believe that in order to be able to plot a 2D contour using the contour command in Matlab, I will have to use a 2D matrix (which will essentially contain potential values in my case). How do I create a 2D matrix for this case? Or is there a workaround which can altogether avoid a 2D matrix and still give a 2D contour. The x-y coodinate data I have is not in any particular order but can be arranged if needed.

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2 Answers 2

up vote 2 down vote accepted

I have run into this problem myself, and have found an incredible solution from a stackoverflow member, John D'Errico, i.e. woodchips. His package on Matlab Central called gridfit, will solve your problem handily. Here's my own example, but John has much better ones in his incredible documentation and demo files.

% first, get some random x,y coordinates between -3 and 3
% to allow the peaks() function to look somewhat meaningful
x = rand(10,1)*6 - 3;
y = rand(10,1)*6 - 3;
% calculate the peaks function for this points
z = peaks(x,y);
% now, decide the grid we want to see, -3 to 3 at 0.1 intervals
% will be fine for this crude test
xnodes = -3:0.1:3;
ynodes = -3:0.1:3;
% now, all gridfit, notice, no sorting!  no nothing!
% just tell it the rectangular grid you want, and give it
% the raw data.  It will use linear algebra and other robust
% techniques to fit the function to the grid points
[zg,xg,yg] = gridfit(x,y,z,xnodes,ynodes);
% finally, plot the data, Viola!
contour(xg,yg,zg)
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Thanks for the link to gridfit. It is almost what I needed!! What I understand from your test code is that gridfit needs a rectangular domain to fit the original data, i.e. by using, xnodes = -3:0.1:3; ynodes = -3:0.1:3; The original data that I have may not always be for a rectangular domain (eg. an annular region in 2D). In which case I would end up in false data points inside and outside the annular region with the use of gridfit. A not so clean way out of this might be to mask the output at points outside the region of interest. –  Ganesh Diwan Feb 21 '13 at 11:41

For arbitrarily scattered data, look at TriScatteredInterp as an alternative to gridfit.

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