Radial average of 2D matrix

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Brian
Brian el 29 de Oct. de 2015
Comentada: Sergey Loginov el 21 de Mzo. de 2022
Dear Community
I have a filter with a 256 by 256 double dimension. I would like to take the radial average (starting at the center of the image, 1 pixel at a time) in order to convert this into a 1D filter to apply to my data.
I know that
ceil((n+1)/2)
directs me to the center of my matrix, but how would I take radial averages outward from this point?
Thank you so much!
  1 comentario
Sergey Loginov
Sergey Loginov el 3 de Nov. de 2021
For 256x256 it should not matter much, but consider using accumarray based solutions!
function [Tics,Average]=radial_profile(data,radial_step)
%main axii cpecified:
x=(1:size(data,2))-size(data,2)/2;
y=(1:size(data,1))-size(data,1)/2;
% coordinate grid:
[X,Y]=meshgrid(x,y);
% creating circular layers
Z_integer=round(abs(X+1i*Y)/radial_step)+1;
% % illustrating the principle:
% % figure;imagesc(Z_integer.*data)
% very fast MatLab calculations:
Tics=accumarray(Z_integer(:),abs(X(:)+1i*Y(:)),[],@mean);
Average=accumarray(Z_integer(:),data(:),[],@mean);
end
Sergey Loginov (2021). radial_profile (https://www.mathworks.com/matlabcentral/fileexchange/101480-radial_profile), MATLAB Central File Exchange. Retrieved November 3, 2021.

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Respuesta aceptada

Tushar Sinha
Tushar Sinha el 2 de Nov. de 2015
Hi Brian
I understand that you wish to know how to compute the radial average for a 2D matrix. Please refer to the MATLAB script in the File Exchange submission link below which calculates the radial average of a 2D matrix:
I hope this helps resolve the issue.
Thanks,
Tushar
  2 comentarios
Brian
Brian el 4 de Nov. de 2015
This is fantastic! Thank you so much, Tushar.
Sergey Loginov
Sergey Loginov el 3 de Nov. de 2021
Dear Tushar,
There is a much faster approach based on the matrix features of MatLab itself. I have used accumarray function and get a very substantial speed-up compared to the for loops!
Sergey Loginov (2021). radial_profile (https://www.mathworks.com/matlabcentral/fileexchange/101480-radial_profile), MATLAB Central File Exchange. Retrieved November 3, 2021.

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Más respuestas (3)

Sergey Loginov
Sergey Loginov el 3 de Nov. de 2021
This is very sad! For many years people ask this question and get the same for loop answer. The code below works 50 times faster at size data 2048x1792 .
function [Tics,Average]=radial_profile(data,radial_step)
%main axii cpecified:
x=(1:size(data,2))-size(data,2)/2;
y=(1:size(data,1))-size(data,1)/2;
% coordinate grid:
[X,Y]=meshgrid(x,y);
% creating circular layers
Z_integer=round(abs(X+1i*Y)/radial_step)+1;
% % illustrating the principle:
% % figure;imagesc(Z_integer.*data)
% very fast MatLab calculations:
Tics=accumarray(Z_integer(:),abs(X(:)+1i*Y(:)),[],@mean);
Average=accumarray(Z_integer(:),data(:),[],@mean);
end
  2 comentarios
tamp
tamp el 10 de Mzo. de 2022
Editada: tamp el 10 de Mzo. de 2022
Hi Sergey,
How could I extend this to the entire diameter, instead of just radial? I'd like a full cross-section profile.
Thank you,
Tamas
Sergey Loginov
Sergey Loginov el 21 de Mzo. de 2022
Hi Tamas,
Sorry for the late reply.
Unfortunately, I do not quite get your question. Have checked Radon transform already realized in MatLab?
Regards,
Sergey

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Hugo Trentesaux
Hugo Trentesaux el 7 de Feb. de 2019
You can program a function like this :
function profile = radialAverage(IMG, cx, cy, w)
% computes the radial average of the image IMG around the cx,cy point
% w is the vector of radii starting from zero
[a,b] = size(IMG);
[X, Y] = meshgrid( (1:a)-cx, (1:b)-cy);
R = sqrt(X.^2 + Y.^2);
profile = [];
for i = w % radius of the circle
mask = (i-1<R & R<i+1); % smooth 1 px around the radius
values = (1-abs(R(mask)-i)) .* double(IMG(mask)); % smooth based on distance to ring
% values = IMG(mask); % without smooth
profile(end+1) = mean( values(:) );
end
end
  2 comentarios
Nathaniel Conrad
Nathaniel Conrad el 8 de Ag. de 2020
Hi, as a note, this code will only work if the image of interest is centered properly. i.e., if cx and cy are not exactly the center of the picture, then the mask will not index the IMG matrix properly. Do you have a solution to this problem?
For example, say you have a 20x20 image, but you want to radial average about the (5,5) point in the image. Choosing w = 20, cx = 5, and cy = 5 leads to a mismatch in indexing when applying IMG(mask). In particular, looking at just i =1 in the for loop (i.e., < 2 pixel out in radii from the cx and cy), IMG(mask) will give you intensity values from the following points: (14,2), (15,2), (16,2), (4,3), (4,6), (14,3), (15,3), (16,3). It should be giving you intensity values from (4,4), (5,4), (6,4), (4,5), (6,4), (4,6), (5,6), (6,6).
Anyone know why that is happening and how to fix it?
Hugo Trentesaux
Hugo Trentesaux el 10 de Ag. de 2020
You mean subpixel position of the center? In this case, you can do a subpixel translation of the mask with the imtranslate function.

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David Fischer
David Fischer el 23 de En. de 2022
I updated my radial average function from the recent recommendations to use accumarray. It's faster now, but I'm not tested it extensively to see how much faster. There is still some improvement to be done I'm sure in smarter handing of the matrix data. And it no longer safely handles NaN in the input data set. This thread referenced in update in acknowledgement.

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