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I am trying to do a task, but there are 2 problems. The first one, I must take an image, and then detect the edges on the surface.

This is the original image, and this would be the result, however, i got this (remove the space in the http):

I am using a very simple code:

filter=[1 2 1;0 0 0;-1 -2 -1];

As you can see, it is very easy but i dont have the same image. Is my filter wrong?

The second problem is the next: I don't know how to create a matrix of miximg coefficients, mask(x,y). This matrix has to be created based on the edges (value of 1 in flat areas and gradually decrease to 0 to edges). What command should i use?

Thank you.

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is your filter extracting both vertical and horizontal edges? Because the filter2 uses the cov2 function and to extract both vertical and horizontal edges you need to use cov2 twice in your code. – NKN Dec 26 '13 at 20:47
@Thomas, sorry. The next time i will try to do it correctly. Thanks. – Dedrawde Dec 26 '13 at 22:14

2 Answers 2

up vote 1 down vote accepted

NKN definitely got the point, the only thing I want to point out is that you're using the sobel kernel for the y direction, if you want to effectively perform the edge detection on the x axis the kernel is

Sobel_x = [1 0 -1; 2 0 -2; 1 0 -1];

Also note that there are many other better detector, such as the Canny one. I strongly suggest you to have a look at it.

Regarding your second question, I'm not sure what you're asking, but it looks like you want a normalized gradient magnitude matrix. To get it you must first (surprise!) calculate the gradient matrix:

G=sqrt(G_x.^2 + G_y.^2);

Where G_x and G_y has been obtained convolving the image with Sobel_x and Sobel_y in your case. This matrix will contain the gradient magnitude for each pixel of the image on which you're detecting edges.

Then to get things in the interval [0,1] you just normalise the matrix:

G = G/max(G(:));

In this case you'll get the opposite of what you want (closer to 1 mean that the pixel is likely to be part of an edge), so you may just simply do G = 1-G.


Also note that to get a decent looking binary result you want to threshold the gradient magnitude matrix.

For example I tried a threshold of 0.15 on the G before doing the 1-G.

G = G>0.15;
G = 1-G

and the result with sobel is:

enter image description here

I'm sure you can do better, this is just an almost random threshold value to show you the result.

Higher the threshold, finer the features you're classifying as edges.

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Hello @cifz, i have a question. When i calculate the gradient with the square root "G=sqrt(G_x.^2, G_y.^2)", Matlab says that there are too many imputs. I guess, the mistake is in the comma between both imputs, right? Would it be a "+", isn't it? I did it and the result is satisfying. Thank you so much for your answer, it was very helpful. – Dedrawde Dec 26 '13 at 22:13
Yes it is, sorry a combination of other language in my mind + I'm tired caused the typo! I'm editing the thing. EDIT: Now it's corrected. Thanks for pointing it out – cifz Dec 26 '13 at 22:15
@user3137463 Remember to accept/upvote the answer that most satisfies you (it hasn't to be mine! ) as it will help people with similar problems to easily find the solution! – cifz Dec 26 '13 at 22:16

is your filter extracting both vertical and horizontal edges? Because the filter2 uses the cov2 function and to extract both vertical and horizontal edges you need to use cov2 twice in your code. check this page for conv2 example on vertical and horizontal edges.

You can also try edge command in MATLAB though it works over intensity images:

I = imread('boat.jpg');
BW1 = edge(I,'prewitt');  % or any other filters supported

check this page for different kinds of edge filters.

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Thank you for your answer. I will try with these ways. – Dedrawde Dec 26 '13 at 22:08

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