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Why my calculation of standard deviation of an image is different from the built-in function

1 Ansicht (letzte 30 Tage)
ZhG
ZhG am 28 Jun. 2013
Hello,
My code is shown below, and I opened the built-in function. I found it just calculates the square root or variance. So, the method is the same. I don't know why.
function ret = yStdDeva(im)
tic;
[tR, tC] = size(im);
mean1 = mean(im(:));
% Calculate square of difference between pixels and mean
sdpm = (double(im) - mean1).^2;
sum_sdpm = sum(sdpm(:));
% Calculate variance
imvar = (1/(tR*tC ))*sum_sdpm;
% Calculate Standard deviation
ret = (imvar)^(1/2);
toc;

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Antworten (4)

Jan
Jan am 28 Jun. 2013
Bearbeitet: Jan am 28 Jun. 2013
You simply use a wrong formula: You have to normalize by the number of elements minus 1. In addition there can be a difference between SQRT and ^0.5 due to the different numerical implementations.
d = double(im);
C = d(:) - mean(d(:));
S = sqrt(sum(C .* C, 1) ./ (numel(d) - 1)):
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ZhG
ZhG am 28 Jun. 2013
Actually, it is the same after I had modified my program as your answer. I am confused. The result obtained by built-in function is only 9.6938. But a result of 72.0412 was obtained by my program.
Jan
Jan am 28 Jun. 2013
Bearbeitet: Jan am 28 Jun. 2013
I have converted the image to the type double to avoid saturation effects with integer types. So please try my code and not a program modified like my code.

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ZhG
ZhG am 28 Jun. 2013
However, I found where the problem happens. If I calculate standard deviation of an image without converting it into double, it will generate a result of 9.6938. However, it will does return 72.0412 afte I transformed it to double.
Is there anyone know what the problem is?
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Jan
Jan am 28 Jun. 2013
Bearbeitet: Jan am 28 Jun. 2013
Operations on integer types are affected of the saturaion:
uint8(250) + uint8(250) == uint8(255) !!
Iain
Iain am 28 Jun. 2013
Wind-up is a type of saturation, and I use the terms almost interchangably.

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Image Analyst
Image Analyst am 28 Jun. 2013
I don't see much difference - just a really slight difference (less than a thousandth of a gray level):
im=imread('cameraman.tif');
% Your way:
[tR, tC] = size(im);
mean1 = mean(im(:));
% Calculate square of difference between pixels and mean
sdpm = (double(im) - mean1).^2;
sum_sdpm = sum(sdpm(:));
% Calculate variance
imvar = (1/(tR*tC ))*sum_sdpm;
% Calculate Standard deviation
ret = (imvar)^(1/2)
% Standard, built-in way:
std(double(im(:)))
In the command window:
ret =
62.3412396872523
ans =
62.3417153186086
Why are you wanting to do it yourself anyway? Why not just use std()?
ZhG
ZhG am 28 Jun. 2013
thank you all, guys.

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