Fringe spacing and frequency from image
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Hi,
I am trying to calculate the fringe spacing and numbers from the attached image. However, the noise that appears in the dark spot of the fringe causing the error in the frequency estimation using fft function. Could someone please help me with this.
load matlab; whos
imshow(x1',[])
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Mathieu NOE
am 18 Apr. 2025
Bearbeitet: Mathieu NOE
am 18 Apr. 2025
hello
this is maybe a bit oversimplified but I assumed that I would not make a big error by considering that the fringes are parallel to the horizontal axis
my logic is just to take the mean of the x1 array , smooth a bit the result and pick the peaks (then you get a period in pixel units => up to you to convert in the freq units)
load('matlab.mat')
x1 = double(x1);
% x1(x1>1.5) = NaN; % not really needed , just to remove some large
% amplitude isolated spots
figure,
imagesc(x1)
s1 = mean(x1,2,'omitnan');
s1 = smoothdata(s1,'gaussian',25);
figure,
plot(s1)
hold on
[PKS,LOCS] = findpeaks(s1,'MinPeakHeight',max(s1)/5);
plot(LOCS,PKS,'dr')
spatial_period_pixels = diff(LOCS)
5 Kommentare
MechenG
am 18 Apr. 2025
Mathieu NOE
am 18 Apr. 2025
I tried to see what happens if I reduce the amount of smoothing but that does not really affect the results
I believe it has more to do with "noise" , I would rather call it some non uniform distribution of the fringes
but also is possible to get the same iamge before it gets binarized ? this would improve the results
lastly what you can do is simply take the mean value of those periods
MechenG
am 18 Apr. 2025
fyi , I tried two methods , results are very similar
load('matlab.mat')
x1 = double(x1);
% x1(x1>1.5) = NaN;
figure,
imagesc(x1)
s1 = mean(x1,2,'omitnan');
%% findpeaks period counting
s1 = smoothdata(s1,'gaussian',25);
[PKS,LOCS] = findpeaks(s1,'MinPeakHeight',max(s1)/5);
figure,
plot(s1)
hold on
plot(LOCS,PKS,'dr')
hold off
spatial_period_pixels1 = mean(diff(LOCS))
%% zero crossing period counting
% first some high pass filtering
[b,a] = butter(1,0.1,'high');
s1 = filtfilt(b,a,s1);
threshold = 0.1*max(s1);
x = (1:numel(s1))';
t0_pos1 = find_zc(x,s1,threshold);
spatial_period_pixels2 = mean(diff(t0_pos1))
figure
plot(x,s1,'b',t0_pos1,threshold*ones(size(t0_pos1)),'*r','linewidth',2,'markersize',6);grid on
legend('signal','signal positive slope crossing points');
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [Zx] = find_zc(x,y,threshold)
% positive slope "zero" crossing detection, using linear interpolation
y = y - threshold;
zci = @(data) find(diff(sign(data))>0); %define function: returns indices of +ZCs
ix=zci(y); %find indices of + zero crossings of x
ZeroX = @(x0,y0,x1,y1) x0 - (y0.*(x0 - x1))./(y0 - y1); % Interpolated x value for Zero-Crossing
Zx = ZeroX(x(ix),y(ix),x(ix+1),y(ix+1));
end
MechenG
am 18 Apr. 2025
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