Composing matrix from small matrices
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Hi all,
I have a random matrix generated by a rand function. The matrix size is 60x60 (a small array). I want to resize this matrix up to 600 x 600 (let's call it big array). I want that every 10x10 pixels from the 'big array' was filled by a corresponding pixel from a small array. For example pixels (1:10, 1:10) from a big array would have a '1' if the small_array(1,1) equals '1'.
How to do that? I tried to treat this array as an image and use imresize funtion, but it gives blurred image. I also tried following code, but there is something missing and I dont know what it is exactly.
size = 60;
Phi = rand(size,size)>0.5;
BigPhi = zeros(600,600);
for i=1:60
n=(i-1)*10
i
if i==1
BigPhi(i:(i*10),i:(i*10))=Phi(i,i);
end;
if i>1
BigPhi((i-1)*10:(i*10),(i-1)*10:(i*10))=Phi(i,i);
end
end
I will appreciate any help.
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Akzeptierte Antwort
Image Analyst
am 2 Jun. 2012
One line of code:
BigPhi = imresize(Phi, [600 600], 'nearest');
By the way don't do this:
size = 60;
By doing so, you just blew away the very useful built in size() function!!!
Weitere Antworten (4)
Ryan
am 2 Jun. 2012
clear m n o p
% Generate matrices
sizeA = 60;
fill_size = 10;
Phi = rand(size,size)>0.5;
BigPhi = zeros(600,600);
% Define BigPhi position counters
o = 1;
p = 1;
%Fill BigPhi
for m = 1:sizeA
for n = 1:sizeA
BigPhi(p:m*fill_size,o:n*fill_size) = repmat(Phi(m,n),[fill_size fill_size]);
p = p + fill_size;
end
o = o + fill_size;
end
I don't have Matlab on this computer to test it, but I believe this should do what you're asking for. The m and n counters keep track of your position in Phi so you can pull out the appropriate data and also dictate the end range of where you will stop filling BigPhi with that value. The o and p counters provide a way to keep track of where to start filling (1,11,21, etc).
B = repmat(A,[m n]) creates a larger m*n matrix, B, by repeating A.
1 Kommentar
bikekowal Marcin Kowalski
am 2 Jun. 2012
3 Kommentare
Ryan
am 4 Jun. 2012
I took a quick look at it and fixed the first bug, but ran into another. The skeleton is there if you'd like to debug and figure out where in the algebra it is getting screwed up, but I'd suggest trying what Image Analyst did. I don't have the time to try to fix it.
Walter Roberson
am 4 Jun. 2012
I would have to test to be sure this is exactly right, but I believe you can use
BigImage = kron(SmallImage, eye(10));
Be sure to test that this returns the correct class() for your purposes; you might need
BigImage = cast( kron(SmallImage, eye(10)), class(SmallImage) );
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