Trying to understand the image matrix

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Lizan
Lizan 2014 年 9 月 16 日
編集済み: Lizan 2014 年 9 月 16 日
Hi,
I have a jpg image and opened it in MATLAB. It has the following size;
size(pixImage{1}) = 1024 1280 3
I was wondering what the third column represents?
I plotted them up;
figure; image(pixImage{1}(:,:,1))
figure; image(pixImage{1}(:,:,2))
figure; image(pixImage{1}(:,:,3))
but it seems like the image is the same?
Also this is suppose to be a black and white image (or grey) but its blue white and red when I plot according to above. And when I plot;
figure; image(pixImage{1}(:,:))
it seem as if the image has three divisions? there are some visible lines diving the image up in 3 sections?

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John D'Errico
John D'Errico 2014 年 9 月 16 日
編集済み: John D'Errico 2014 年 9 月 16 日
To add a few comments to what Stephen and Image have already told you...
1. That third column of the 3-dimensional image array tells us that the image has 3 planes, here (red, green, blue) since the image is RGB. This is a color image. Gray is a valid color, just not a terribly exciting one. (And it is available in more than 50 shades.)
2. The statement that all three channels are the same when plotted separately tells us that it is indeed a grayscale image. Such an image appears neutral, in shades of gray because all three channels (in terms of RGB) are the same.
3. When you do this:
figure; image(pixImage{1}(:,:))
Matlab converts the image array into a TWO dimensional array, reshaping it. It was three dimensional, but the (:,:) forced it to reshape. For example:
A = rand(2,3,4);
size(A(:,:))
ans =
2 12
MATLAB just does what you tell it to do. If you tell it to do something silly, it is quite happy to comply.
So in your case,
size(pixImage{1}(;,:))
would be [1024 3840].
  5 件のコメント
Image Analyst
Image Analyst 2014 年 9 月 16 日
Try extracting the image from the cell first, then getting the profile
thisImage = pixProfile{i};
thisColumn1Profile = thisImage(:, 1);
Lizan
Lizan 2014 年 9 月 16 日
編集済み: Lizan 2014 年 9 月 16 日
Yes, I made an array of pixProfile and this seemed to solve the problem. =)
Thank you!

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その他の回答 (1 件)

Image Analyst
Image Analyst 2014 年 9 月 16 日
It is a color image. The third dimension is the color channel: red, green, or blue. If your image is gray (yes, gray is also a color), then all the color channels are identical because that's what gray means - all the color channels have the same values.
I don't know what the visible lines are in your images. Perhaps they're in the image data. Can you post a screenshot?
I don't know why image() shows them in color instead of gray scale. Perhaps some weird colormap is being applied. After you call image(), call colormap(gray(256)) and see if that fixes it.
  3 件のコメント
Adam
Adam 2014 年 9 月 16 日
編集済み: Adam 2014 年 9 月 16 日
You can use imagesc instead and if all your 3 channels are the same just:
imagesc( pixImage{1}(:,:,1));
colormap(gray(256))
should work. Or
image( pixImage{1} );
colormap(gray(256))
should also work too, but don't use pixImage{1}(:,:)
Image Analyst
Image Analyst 2014 年 9 月 16 日
Then it is NOT a gray image. It's a color image with different colors. I made a mistake earlier. Actually if an image is a 3D true color image, colormap() has no effect whatsoever. So you do have a color image, but it is not all shades of gray like you expected. You can attach your image if you want. You can call rgb2gray(rgbImage) to get a grayscale image, or you can take just one of the color channels.
% Extract the individual red, green, and blue color channels.
redChannel = rgbImage(:, :, 1);
greenChannel = rgbImage(:, :, 2);
blueChannel = rgbImage(:, :, 3);
Each one of those is a grayscale/monochrome image and if you use with image() or imshow(), or imagesc(), you can apply a colormap and you will see a difference.

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