# Compute gradient vector field of an image

I want to read in an image - a picture of a circle, and compute the gradient vector field of that image (ie vectors pointing out uniformly and at normal to the circle). My logic is failing me a bit, but I have:

``````clear all;
im = double(im);
[nr,nc]=size(im);
[x y] = meshgrid(1:nc,1:nr);
u = x;
v = y;
quiver(x,y,u,v)
``````

if I were to simply do the above, I get a vector field, but it is simply the gradient of an empty mesh (ie just a vector field of the gradient y=x). What I actually want is to use

``````[dx,dy] = gradient(im);
``````

to detect the edges of the circle in the image, and then compute the gradient vector field due to the circle in the image. obviously, assigning u=x and v=y will only give me the vector field of a straight line - so bascially, I want to embed the gradient of the image into the vectors u and v. How do I do this?  You have made a mistake in the code (other than that, it works fine). You should replace the following:

``````u = dx;
v = dy;
``````

not

``````u = x;
v = y;
``````

It works with this image like a charm!

EDIT: If you want to super-impose the vectors on the image, then do the following:

``````clear all;
[nr,nc]=size(im);
[x y] = meshgrid(1:nc,1:nr);
u = dx;
v = dy;
imshow(im);
hold on
quiver(x,y,u,v)
``````

Notice that i do not convert the im to double, since it would not appear correctly with imshow (needs uint8). Depending on your image dimensions, you might want to zoom in in order to see the grad vectors.

You can see a zoomed in area of the vectors superimposed on the image, below: Better quality image is at http://i.stack.imgur.com/fQbwI.jpg

• Thank you for the reply. However I think I have not explained the problem thoroughly enough. the gradient vectors that are produced in my code, and also your code are not the gradient vectors caused by the circle in the image. The gradient field produced should be pointing outwards and at normal to the circle. so you see i do not simply want to have u = x, but rather u = the gradient of the image domain in the x direction. – brucezepplin May 2 '12 at 22:54
• if you run this code clear all; im = imread('littlecircle.png'); im = im(:,:,1); im = double(im); [nr,nc]=size(im); [dx,dy] = gradient(im); quiver(dx,dy); on any image you like, you will see what I am after (look at what the quiver plot looks like). although here I am simply returning a quiverplot of a scalar field. I would like to however return the actual vector field and use the vector field later in my program. – brucezepplin May 2 '12 at 23:06
• I'm not sure what you want to do. In the code i posted the vectors do point outwards from the circle (i attached a zoomed in screenshot). Of course, since you have a computational routine that computes the grad in a discrete space (image) the vectors cannot be absolutely normal to the circle due to quantization i.e. don't expect to see "perfect" grad vectors as if computed analytically for a given mathematical circle. – Jorge May 2 '12 at 23:40
• Another note regarding the vector field. gradient(im) does return a vector field. For example in [dx,dy] = gradient(im) dx and dy are matrices with the same dimensions as im. For example if im is 200x300 then so are dx,dy. These represent the x and y components of the grad vectors at each point. Thus, for the point (123,245) in the image, the gradient vector there is v=[dx(123,245),dy(123,245)]; Of course, since you want to use a vector field you will also need the coordinates of the base space i.e. the x,y matrices. – Jorge May 2 '12 at 23:54
• Ok i see the problem. The image you posted is rgb, whereas the code works with grayscale images only. Thus you should convert it using: im=rgb2gray(imread('littlecircle.png')), and it works fine. – Jorge May 3 '12 at 14:49