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I have read in an image file to MATLAB and I am trying to stretch it in one direction, but a variable amount (sinusoidal). This would create an accordion affect on the image. I have toyed around with imresize, however that only resizes the image linearly. I would like the amount of "stretch" to vary for each image line. I tried to convey this with the following code:

periods = 10; % Number of "stretch" cycles
sz = size(original_image,2)/periods;
s = 0;
x = 0;
for index = 1:periods
    B = original_image(:,round(s+1:s+sz));
    if mod(index,2) == 0
        amp = 1.5;
    else
        amp = 0.75;
    end
    xi = size(B,2)*amp;
    new_image(:,x+1:x+xi) = imresize(B, [size(B,1) size(B,2)*amp]);
    s = s + sz;
    x = x+xi;
end

You can see that segments of the image are stretched, then compressed, then stretched, etc, like an accordion. However, each segment has a uniform amount of stretch, whereas I'd like it to be increasing then decreasing as you move along the image.

I have also looked at MATLAB's example of Applying a Sinusoidal Transformation to a Checkerboard which seems very applicable to my problem, however I have been trying and I cannot get this to produce the desired result for my image. Any help is much appreciated.


UPDATE:

Thank you for Answer #1. I was unable to get it to work for me, but also realized it would resulted in loss of data, as the code only called for certian lines in the original image, and other lines would have been ignored.

After experimenting further, I developed the code below. I used a checkerboard as an example. While combersome, it does get the job done. However, upon trying the script with an actual high-resolution image, it was extremely slow and ended up failing due to running out of memory. I believe this is because of the excessive number of "imresize" commands that are used in loop.

I = checkerboard(10,50);
I = imrotate(I,90);
[X Y] = size(I);
k = 4; % Number of "cycles"
k = k*2;
x = 1;
y = 2;
z = 2;
F = [];
i = 1;
t = 0;
s = 0;

for j = 1:k/2
    t = t + 1;
    for inc = round(s+1):round(Y/k*t)
        Yi = i + 1;
        F(:,(x:y)) = imresize(I(:,(inc:inc)),[X Yi]);
        x = y + 1;
        y = x + z;
        z = z + 1;
        i = i + 1;
    end
    y = y - 2;
    z = z - 4;
    for inc = round(Y/k*t+1):round(Y/k*(t+1))
        Yi = i - 1;
        F(:,(x:y)) = imresize(I(:,(inc:inc)),[X Yi]);
        x = y + 1;
        y = x + z;
        z = z - 1;
        i = i - 1;
    end
    y = y + 2;
    z = z + 4;

    s = Y/k*(t+1);
    t = t + 1;
end
Fn = imresize(F, [X Y]);
imshow(Fn);

Does anyone know of a simpler way to achieve this? If you run the code above, you can see the effect I am trying to achieve. Unfortunately, my method above does not allow me to adjust the amplitude of the "stretch" either, only the number of "cycles," or frequency. Help on this would also be appreciated. Much thanks!

share|improve this question
    
Two levels of for loops and an imresize inside the inner loop is definitely a performance killer. Matlab is vector oriented and you want to avoid loops at all costs if good performance is your goal. Also, you have an (inc:inc) that seems suspicious, though I didn't try to look at the details of your implementation. –  Lolo Mar 9 '13 at 3:45

1 Answer 1

up vote 1 down vote accepted

Here is how I would approach it:

  1. Determine how the coordinate of each point in your Final image F maps into your Initial image I of size (M,N)

    Since you want to stretch horizontally only, given a point (xF,yF) in your final image, that point would be (xI,yI) in your initial image where xI and yI can be obtained as follows:

    yI = yF;
    xI = xF + L*sin(xF*K);

    Notes:

    • these equations do not guarantee that xI remains within the range [1:N] so cropping needs to be added
    • K controls the how many wrinkles you want to have in your accordion effect. For example, if you only want one wrinkle, K would be 2*pi/N
    • L controls how much stretching you want to apply
  2. Then simply express your image F from image I with the transforms you have in 1.

Putting it all together, the code below creates a sample image I and generates the image F as follows:

  % Generate a sample input image
  N=500;
  xF=1:N;
  I=(1:4)'*xF/N*50;

  % Set the parameters for your accordion transform
  K=2*pi/N;
  L=100;

  % Apply the transform
  F=I(:, round(min(N*ones(1,N), max(ones(1,N), (xF + L*sin(xF*K))))) );

  % Display the input and output images side by side
  image(I);
  figure;
  image(F);

If you run this exact code you get:

enter image description here

As you can see, the final image on the right stretches the center part of the image on the left, giving you an accordion effect with one wrinkle.

You can fiddle with K and L and adjust the formula to get the exact effect you want, but note how by expressing the transform in a matrix form MATLAB executes the code in a fraction of second. If there is one take away for you is that you should stay away from for loops and complex processing whenever you can.

Have fun!

share|improve this answer
    
Thank for for your answer. Please see update in my original post. –  user1668909 Mar 8 '13 at 20:21
    
Why does the code "not work"? But you are correct that this approach will omit points from the original image. If you do not want that, you could proceed to doing an interpolation (linear if you want) between I(floor(xl)) and I(ceil(xl)), which you can still implement in one line of code. This approach will be many many orders of magnitude faster than the code you have, since your code has an imresize inside two levels of loops. –  Lolo Mar 9 '13 at 3:42
    
@user1668909 I updated my code and ran it to illustrate what I had in mind. You should be able to run that code and play with it further. –  Lolo Mar 9 '13 at 17:49
    
That is exactly what I was trying to do. Very elegant solution. Thank you very much for all your help! Much appreciated. –  user1668909 Mar 11 '13 at 17:49
    
Glad it helped. It was fun to take a little break to play with this. –  Lolo Mar 11 '13 at 17:58

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