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I have three parameters x,y and t. But the problem is my file structure.

My files are named as:

e_x_y.txt
t_x_y.txt

where e_x_y.txt has the error for particular values of x and y and t_x_y.txt has corresponding time values.

I need to plot the values in e_x_y.txt on a x vs y vs t graph.

What is the best way to do that?

I know what x and y values are, so I don't have to deduct them from the file names.


To make things more clear,

suppose my files are:

e_4_5.txt
45
54
t_4_5.txt
2.0
6.0

e_7_8.txt
32
98
121
t_7_8.txt
2
9
1.0

I want to plot the following points:

(4,5,2.0) = 45
(4,5,6.0) = 54
(7,8,2.0) = 32 
(7,8,9.0) = 98
(7,8,1.0) = 121
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1  
Some clarification: What do these variables represent? Are you measuring the position of something (with an error estimate) at different times? Or can x, y, and t be represented by a function of 2 variables, like y = f(x,t)? –  gnovice Nov 27 '09 at 17:58
    
actually I am using a algorithm at different configurations of my neural network. e is the error and t values are the corresponding times taken. –  Lazer Nov 27 '09 at 18:02
    
Are these 3D points densely distributed or is it only for a few values? –  Amro Nov 27 '09 at 18:19
    
these are some discontinuous points like in the example. Just that I have hundreds of pairs of files like these. These are values from an actual file. –  Lazer Nov 27 '09 at 18:21
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2 Answers 2

up vote 6 down vote accepted

The type of plot you are trying to make may be difficult to visualize well. I can give you two suggestions: one is what you want, and one is what you should probably do instead...

Plotting 4-D data:

In order to do this, you will have to plot a series of x,y,t points and somehow represent the error value e at each point. You could do this by changing the color or size of the point. In this example, I'll plot a sphere at each point with a diameter that varies based on the error (a diameter of 1 equates to the maximum expected error). The color represents the time. I'll be using the sample data you added to the question (formatted as a 5-by-4 matrix with the columns containing the x, y, t, and e data):

data = [4 5 2 45; 4 5 6 54; 7 8 2 32; 7 8 9 98; 7 8 1 121];
[x,y,z] = sphere;  %# Coordinate data for sphere
MAX_ERROR = 121;   %# Maximum expected error
for i = 1:size(data,1)
  c = 0.5*data(i,4)/MAX_ERROR;  %# Scale factor for sphere
  X = x.*c+data(i,1);           %# New X coordinates for sphere
  Y = y.*c+data(i,2);           %# New Y coordinates for sphere
  Z = z.*c+data(i,3);           %# New Z coordinates for sphere
  surface(X,Y,Z,'EdgeColor','none');  %# Plot sphere
  hold on
end
grid on
axis equal
view(-27,16);
xlabel('x');
ylabel('y');
zlabel('t');

And here's what it would look like:

alt text

The problem: Although the plot looks kind of interesting, it's not very intuitive. Also, plotting lots of points in this way will get cluttered and it will be hard to see them all well.

More intuitive 3-D plot:

It may be better to instead make a 3-D plot of the data, since it may be easier to interpret. Here, the x-axis represents the iteration number and the y-axis represents each individual network:

plot3(1:2,[1 1],[2 45; 6 54]);           %# Plot data for network 4-5
hold on
plot3(1:3,[2 2 2],[2 32; 9 98; 1 121]);  %# Plot data for network 7-8
xlabel('iteration number');
set(gca,'YTick',[1 2],'YTickLabel',{'network 4-5','network 7-8'})
grid on
legend('time','error')
view(-18,30)

This produces a much clearer plot:

alt text

share|improve this answer
    
what is peaks? –  Lazer Nov 27 '09 at 17:42
    
peaks is a built-in MATLAB function that is often used as a sample function of 2 variables in MATLAB demos. –  gnovice Nov 27 '09 at 17:43
    
so, as I have different values of x and y, how should I define the X,Y and Z arrays? –  Lazer Nov 27 '09 at 17:58
    
I mean how do I format X, Y and Z from my data? –  Lazer Nov 27 '09 at 18:06
    
I think I'll need to know a little more about what your data specifically is and how it's generated to answer that. –  gnovice Nov 27 '09 at 18:09
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Even though I am not convinced this the best way to visualize the data, here's a simple way to do it as you asked. You can plot the 3D points in a simple scatter plot, and map the size OR the color to the values of the fourth dimension error. Something like:

x = randi(20, [10 1]);
y = randi(20, [10 1]);
t = randi(10, [10 1]);
e = randi(200, [10 1]);

% map `e` to color
figure(1)
scatter3(x, y, t, 200, e, 'filled')
xlabel('x'), ylabel('y'), zlabel('t')
colormap(hot), colorbar

% map `e` to size
figure(2)
scatter3(x, y, t, e, 'filled')
xlabel('x'), ylabel('y'), zlabel('t')

color size

share|improve this answer
    
@Amro I have added an example to the question. Please have a look. I am not sure what you mean by: you have two values across a time axis –  Lazer Nov 27 '09 at 18:14
    
It seems I misunderstood how the data looks like! –  Amro Nov 27 '09 at 18:16
    
@Amro: You and me both! ;) –  gnovice Nov 27 '09 at 18:18
    
sorry all for posting an unclear statement at first. my bad. –  Lazer Nov 27 '09 at 18:22
    
how do I plot these points in 3D? –  Lazer Nov 27 '09 at 18:26
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