beyer matrix

1 vue (au cours des 30 derniers jours)
eric nunes
eric nunes le 21 Juin 2011
I have this code...which separates R G and B colors from a beyer image but when i try to display the three images i m getting black images is something missing in the code?
clc; I=imread('b2.bmp'); imshow(I); I=double(I); [M,N] = size(I);
red_mask = repmat([1 0; 0 0], M/2, N/2); green_mask = repmat([0 1; 1 0], M/2, N/2); blue_mask = repmat([0 0; 0 1], M/2, N/2);
R=I.*red_mask; G=I.*green_mask; B=I.*blue_mask;
  1 commentaire
Oliver Woodford
Oliver Woodford le 22 Juin 2011
I think you mean Bayer.

Connectez-vous pour commenter.

Connectez-vous pour répondre à cette question.

Réponses (2)

Sean de Wolski
Sean de Wolski le 21 Juin 2011
Try
imshow(R,[]);
You may just not be looking at the full range of values.
ADDENDUM per comment I'm not sure what you're trying to do (what makes a beyer image special?). If you're trying to mask the channels then your mask (for a typical rgb image) is wrong.
R = bsxfun(@times,reshape([1 0 0],[1 1 3]),I);
G = bsxfun(@times,reshape([0 1 0],[1 1 3]),I);
B = bsxfun(@times,reshape([0 0 1],[1 1 3]),I);
So that you're zeroing out the two channels (slices) that you don't want.
  3 commentaires
Afficher 1 commentaire plus ancien
Walter Roberson
Walter Roberson le 21 Juin 2011
beyer images have interleaved color channels, Sean -- but it isn't a straight forward R,G,B interleave: some channels occur more frequently than others.
Sean de Wolski
Sean de Wolski le 21 Juin 2011
Ahh. Ignore the Addendum then...

Connectez-vous pour commenter.

Eric
Eric le 21 Juin 2011
I don't see anything wrong with your code, but I do wonder about your statement that you are "getting black images" with R, G, and B. Have you inspected the values of these arrays to know that they are zero everywhere, or are you looking at a visualization? If it's the latter, you might try imagesc() or the like.
You might also try something like:
R = I(1:2:end,1:2:end);
G1 = I(1:2:end,2:2:end);
G2 = I(2:2:end,1:2:end);
B = I(2:2:end,2:2:end);
G = (G1+G2)/2;
to index into I directly. Then R should be the actual red image (without interstitial zeros), and likewise for G and B. The way your code works R, G, and B are the same size as the original image. 75% of the values in R and B are zero and 50% of the values in G are zero.
Good luck, Eric
  2 commentaires
eric nunes
eric nunes le 22 Juin 2011
Thanks eric..this was of great help...but i need to ask you one more thing the short code that you have given to directly index into I what does it exactly do i mean wat is 1:2 , 2:2 .....and for this code is the beyer matrix bggr or rggb
Eric
Eric le 23 Juin 2011
Let me give an example:
G1 = I(1:2:end,2:2:end)
extracts the elements in rows 1,3,5,...,end and columns 2,4,6,...,end (where end denotes the last row or column, which is hopefully divisible by 2 in this case).
I tried to match my code to the 2x2 arrays in the repmat() functions in your original question. It looks like the Bayer matrix is of the form
R G R G
G B G B
R G R G
G B G B
So that's why I had R start at (1,1), G start at either (1,2) or (2,1), and B start at (2,2).

Connectez-vous pour commenter.

Catégories

En savoir plus sur Logical dans Help Center et File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by