I have another problem today: I have a binary matrix t, in which 1 represents a river channel, 0 represents flood plane and surrounding mountains:

```
t = Alog>10;
figure
imshow(t)
axis xy
```

For further calculations, I would like to expand the area of the riverchannel a few pixels in each direction. Generally speaking, I want to have a wider channel displayed in the image, to include a larger region in a later hydraulic model.

Here is my attempt, which does work in certain regions, but in areas where the river runs diagonal to the x-y axis, it does not widen the channel. There seems to be a flow in approaching this, which I cannot quite grasp.

```
[q,o] = find(t == 1);
qq = zeros(length(q),11);
oo = zeros(length(o),11);
% add +-5 pixel to result
for z=1:length(q)
qq(z,:) = q(z)-5:1:q(z)+5;
oo(z,:) = o(z)-5:1:o(z)+5;
end
% create column vectors
qq = qq(:);
oo = oo(:);
cords = [oo qq]; % [x y]
% remove duplicates
cords = unique(cords,'rows');
% get limits of image
[limy limx] = size(t);
% restrict to x-limits
cords = cords(cords(:,1)>=1,:);
cords = cords(cords(:,1)<=limx,:);
% restrict to y-limits
cords = cords(cords(:,2)>=1,:);
cords = cords(cords(:,2)<=limy,:);
% test image
l = zeros(size(img));
l(sub2ind(size(l), cords(:,2)',cords(:,1)')) = 1;
figure
imshow(l)
axis xy
```

This is the image I get:

It does widen the channel in some areas, but generally there seems to be a flaw with my approach. When I use the same approach on a diagonal line of pixels, it will not widen the line at all, because it will just create more pairs of [1 1; 2 2; 3 3; etc]. Is there a better approach to this or even something from the realm of image processing? A blur filter with a set diameter should be working somewhat similar, but I could not find anything helpful...

PS: I wasn't allowed to add the images, although I already have 10 rep, so here are the direct links:

http://imageshack.us/a/img14/3122/channelthin.jpg http://imageshack.us/a/img819/1787/channelthick.jpg