How to calculate Maximum Intensity Projection(MIP) of a 3D image ????

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Joy
Joy am 28 Jun. 2012
Bearbeitet: JoaquinB am 11 Dez. 2019
Hi everyone.
Does anyone know how to calculate MIP of a 3D image????
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Walter Roberson
Walter Roberson am 19 Nov. 2016
That does not give Maximum Intensity. See my Answer, where I give code that calculates intensity based upon RGB.
Mohamed Amine Henchir
Mohamed Amine Henchir am 23 Jul. 2019
@Walter Roberson, I couldn't find the code in the link you provided for projection pursuit.

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Image Analyst
Image Analyst am 30 Jun. 2012
This may sound obvious, but did you look at the max() function? It can take a 3D array and give you the max along any dimension you specify.
% Generate sample 3D array
A = rand(2,2,2)
% Get maximum intensity projection.
mip = max(A, [], 3)
In the command window:
A(:,:,1) =
0.6352 0.9889
0.4384 0.9632
A(:,:,2) =
0.2460 0.6582
0.4045 0.9417
mip =
0.6352 0.9889
0.4384 0.9632
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Joy
Joy am 11 Jul. 2012
I got it! Thanks!! :D
Walter Roberson
Walter Roberson am 4 Mai 2015
A Maximum Intensity Projection over each of the channels individually and recombined is not the same as a Maximum Intensity Projection over the entire array. Intensity is a property of the three channels combined. "Intensity" for color images is the same as "brightness", and the various bit planes do not contribute equally to brightness.
When using (0 to 255) as the intensities of the channels, the maximum that the blue channel can contribute to the intensity, when the blue value is 255, is 29.1840. The red channel only needs to be 49.71720614 to have an equal contribution to the brightness.
The code I provided in my answer finds, for each pixel location, the slice that has the maximum brightness, and extracts the R, G, and B that went into making that brightest pixel in order to create the intensity projection.

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Walter Roberson
Walter Roberson am 3 Jul. 2012
I will assume for this discussion that your RGB image stack is arranged as (X, Y, RGB, Z) and that it is named Stack
grayStack = squeeze( 0.2989 * Stack(:,:,1,:) + 0.5870 * Stack(:,:,2,:) + 0.1140 * Stack(:,:,3,:) ); %X, Y, Z after squeeze
[maxgray, maxidx] = max(grayStack, [], 3); %along the 3rd axis (Z)
nX = size(Stack,1);
nY = size(Stack,2);
[X, Y] = ndgrid( 1 : nX, 1 : nY );
MIP_R = Stack( sub2idx( size(Stack), X(:), Y(:), 1, maxidx(:) ) );
MIP_G = Stack( sub2idx( size(Stack), X(:), Y(:), 2, maxidx(:) ) );
MIP_B = Stack( sub2idx( size(Stack), X(:), Y(:), 3, maxidx(:) ) );
MIP = cat(3, reshape(MIP_R, nX, nY), reshape(MIP_G, nX, nY), reshape(MIP_B, nX, nY) );
image(MIP);
There are performance tweaks that can be done.
The code would be slightly different if the RGB is the 4th dimension instead of the third.
The first line of the code is effectively doing an rgb2gray() but for all of the image layer simultaneously. This conversion calculates the intensity (brightness) of each pixel in each slice. In the discussion with IA, the conversion from RGB to brightness (intensity) is not done, so the code there is not doing a Maximum Intensity Mapping. You should not be calculating the maximum R along the stack and the maximum G along the stack independently: you need the R, G, and B information combined at each pixel in order to calculate intensity there.
With intensity in hand, the code finds the maximum intensity along the Z, and the Z slice number that corresponds to the brightest point.
Once the slice number is done, there is some code that, in a vectorized way, pulls out the R, G, and B pixel values of the appropriate Z layer. And once it has those, it combines the three channels into a single RGB image.
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Joy
Joy am 6 Jul. 2012
I've figured it out myself. But anyway thanks :D
JoaquinB
JoaquinB am 11 Dez. 2019
Bearbeitet: JoaquinB am 11 Dez. 2019
Hello Walter, How would it be for a grayscale image. Im doing it with the max function, but it does give a lot of white pixels and the image is really saturared compared to ImageJ Z proyection. Am i skipping any type of math procedure? Thanks!
Im doing Z proyection every 50 stacks (my image dimensions are 280,1000,4000).
PD: I do have an error on s=41 because of crop dimensions.
STACK_pass=50;
INPH_filt_pass=0:STACK_pass:4000;
INPH_filt_pass(1)=1;
NUM_stacks= length(INPH_filt_pass);
BOT_filt=zeros(280,1000,NUM_stacks);
for s=1:1:(NUM_stacks-1)
BOT_stack=imcrop3(BOT_crop,[1,1,INPH_filt_pass(s),999,279,(INPH_filt_pass(s+1)-1)]);
BOT_max=max(BOT_stack,[],3);
BOT_filt(:,:,s)=BOT_max;
end

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navid alemi
navid alemi am 2 Mai 2015
Hi Joy
would you please let me know how you figure it out I have the same problem.
thank you in advance
  2 Kommentare
Image Analyst
Image Analyst am 2 Mai 2015
Is there something about the max() function you don't understand?
Walter Roberson
Walter Roberson am 4 Mai 2015
I gave complete code in my answer. The method Joy followed of doing each color plane independently and then combining the results does not give the maximum intensity because the different color planes do not contribute equally to intensity.

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