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I have a matrix

b = [1+ 1i, 2 + 1i, 2+ 2i, 3 + 3i, 3+ 3i ; ...
     1.2 + 2i , 2+2i,  2.1 + 2.1i, 3+2.1i, 3.1 + 3.2i]   

where real(b) is the x coordinate, b(x,:) is one experiment, and imag(b) is the y coordinate.

I want two things:

  1. plot my experiments in a 2d plot as lines (but the points have to be in the right order)

  2. plot my y (usually calledz) coordinate as a surface over the axes x and experiment.

The problem is, that I want lines along the rows and Matlab mixes the coordinates of the complex numbers up and the line appears in a zig-zag all over the place.

The more basic problem is that I want to have bars from x1 to x2 at y1 and I only came up with adding a data point y1 at x1 and x2. But at x2 there is also y2 which seems to confuse Matlab.

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2 Answers 2

up vote 0 down vote accepted

For question (1), plot(b) is going to give you lines made up of the columns of b. If you switch to using b-transpose, i.e. plot(b'), you'll plot each row separately.

plot(b')
ylim([-4 0])
xlim([-0 4])

Question (2) requires a certain toolbox for the resp function?

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Thanks for the solution, only thing is that it turns my results around 180 degrees. Plotting (-b') inverts the x-Axis. For my second question i just edited to make it clearer. –  Joe Feb 14 at 23:44
    
Still not entirely clear on question 2 - are you saying want to have an m x n matrix b of complex values, and then assign y = b.imag, x = b.real, and z = i, i being the row number? –  schodge Feb 14 at 23:53
    
No i just want to plot the different rows of the matrix over the y-Axis such that i get a surface plot and not a number of overlayed line plots. –  Joe Feb 14 at 23:55
    
I think we're saying the same thing. Take a look at mathworks.com/help/matlab/visualize/… . You probably want to use surf (or mesh), but I believe that requires you to first create an [x,y] grid - x will be your b.real's, z's your arbitrary index, and then you can map b.imag against it. I always have to experiment a bit with 3D plots in MATLAB since I do them so infrequently. –  schodge Feb 15 at 0:34

You can use Euler's formula to convert your data from Cartesian coordinates to polar coordinates.

clear all; close all;

function [rho, theta] = polarize(z)
  rho = abs(z);
  theta = angle(z);
end

b = [1+ 1i, 2 + 1i, 2+ 2i, 3 + 3i, 3+ 3i;
1.2 + 2i , 2+2i,  2.1 + 2.1i, 3+2.1i, 3.1 + 3.2i];

[rho1, theta1] = polarize(b(1,:));
[rho2, theta2] = polarize(b(2,:));

figure
hold on
polar(theta1, rho1, 'b');
polar(theta2, rho2, 'r');

print('-dpng','euler.png')

Result in Octave: polar plot

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This one works too but my b gets quite long and thus i want avoid loops or addressing the rows individually. Thanks –  Joe Feb 14 at 23:48
    
Could you add an image representing sample data to the question? –  divanov Feb 15 at 8:31
    
I can save the data in any form, but complex numbers are good because i have data that come in by at fix angle values (e.g. every degree) and data that are at random angles. I have to map the two and with using complex numbers it happens automatically. Here is a picture: dropbox.com/s/33cgsic6j6k5dbx/Capture.PNG –  Joe Feb 18 at 22:12

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