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I'm using Octave 3.8.1 which is like Matlab and I'm trying to create a color map / heatmap to look something like this

Map

I have an array a1 where the 1st col is x, the 2nd col is y and the 3rd col is intensity. I know I can plot a 2d plot using plot(x,y) but how do I add / show the intensity (the 3rd col) in the plot.

a1=
[225.512    2.64537 0.00201692
225.512 2.64537 0.00201692
226.94  1.59575 0.00225557
226.94  1.59575 0.00225557
227.31  1.70513 0.002282
227.31  1.70513 0.002282
227.729 5.34308 0.00205535
227.729 5.34308 0.00205535
227.975 5.12741 0.001822
227.975 5.12741 0.001822]

Full dataset is located here https://www.dropbox.com/s/mmhpbelnjoondho/full.csv

Please note that this is just sample data.

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  • You could try pcolor with shading interp. Here is an octave example
    – Steve
    Nov 9, 2015 at 13:46
  • 1
    Most of the 3D plotting tools in MATLAB/Octave require the intensity (Z) to be a matrix corresponding to the grid produced by the x and y data. There isn't enough intensity data in your example to produce a plot resembling that in your question.
    – IKavanagh
    Nov 9, 2015 at 13:51
  • as @IKavanagh says, your data does not conain enough information to plot a surface, as in the image. Can you show a MVCE? Nov 9, 2015 at 14:07
  • @Ander Biguri what is MVCE?
    – Rick T
    Nov 9, 2015 at 14:14
  • What does a1 have repeating rows? Is that your full dataset?
    – Dan
    Nov 9, 2015 at 14:19

1 Answer 1

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a1=
[225.512 2.64537 0.00201692
225.512  2.64537 0.00201692
226.94   1.59575 0.00225557
226.94   1.59575 0.00225557
227.31   1.70513 0.002282
227.31   1.70513 0.002282
227.729  5.34308 0.00205535
227.729  5.34308 0.00205535
227.975  5.12741 0.001822
227.975  5.12741 0.001822]

In order to plot your heatmap, you need to intensity data as an image (i.e. a 2D matrix). Then you can just plot it using imagesc or imshow.

In order to do that you'll need to first get a 2D matrix of x values (X), and a corresponding 2d matrix of y values (Y) so that you can interpolate a grid of z values (Z).

x = a1(:,1);
y = a1(:,2)
z = a1(:,3)
n = 256;
[X, Y] = meshgrid(linspace(min(x),max(x),n), linspace(min(y),max(y),n));
Z = griddata(x,y,z,X,Y);
%// Remove the NaNs for imshow:
Z(isnan(Z)) = 0;
imshow(Z)

you might want to normalize Z to range from 0 (or in the case of this data, to make the lowest non-zero value equal to zero) to 1 to improve the constrast:

m = min(Z(Z~=0));
M = max(Z(Z~=0));
imshow((Z-m)/(M-m));
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  • 4
    use imagesc for a result more like what the OP asks. Nov 9, 2015 at 14:55

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