Why fft don't find oscillations ?

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University el 19 de Mzo. de 2024

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https://es.mathworks.com/matlabcentral/answers/2096266-why-fft-don-t-find-oscillations

Comentada: Matt J el 19 de Mzo. de 2024

I'm trying to find an FTT of an oscillatory data. In the first figure, you can observed an isolated white region. In this region I expect to see an oscillation instead I am seeing no oscillation. I set a threshold to determine whether there is oscillation or not. But even when I adjusted the threshold, the code can't still find the oscillation the isolated white region. I tried to explore by plotting the data around the isolated white region (i.e. in fig 3). You can see there is a bit oscillation around the white region. Please does one knows what might be the problem. I didn't use HANN widow because, it can't figure out what it does.

active_flow = load('sol_active_flow_varying_xiL.mat');

data1 = load('X1'); data2 = load('Y1')

data2 = struct with fields:

Y1: [31x301 double]

% values xarray and yarray

x =active_flow.xvals;

y =active_flow.yvals;

% activity values and line at in the HAN region

xival=active_flow.xivals;

lval =active_flow.Lvals;

% extract parameters

paras = active_flow.pars;

% line in the HAN region

l = paras.L;

% width of the rectangle

w =paras.W;

% height of the rectangle

d = paras.D;

% extract dependent variables theta

theta = active_flow.thetaxmym;

X1 = data1.X1;

Y1 = data2.Y1;

% HAN region: using the mesh grid

HAN = (X1 >= -l/2 & X1 <= l/2);

% Index position of -l/2 and l/2

lstop=find(HAN(1,:),1,'last');

% x arrays in the right planar region

xplanarright = x(lstop:end);

%% Sampling Frequency

% Sampling frequency left HAN planar

Fsplanarright = 1/(xplanarright(2)-xplanarright(1));

% Length of x left planar region

Lplanarright = length(xplanarright);

%% PLOTTING

%% Compute the fftshift

for ixi=1:length(xival)

for il=1:length(lval)

% fftshift of theta

thetafftplanarright(:, ixi,il) = abs(fftshift(fft(theta(lstop:end,ixi, il))));

% shift the frequencies

Fshiftplanarright=(-Lplanarright/2:Lplanarright/2-1)*(Fsplanarright/Lplanarright);

end

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

% Calculate the Peaks and Frequencies

Iplanarright = 1:numel(xplanarright);

for k1 = 1:size(thetafftplanarright,2) % this get the xi values

for k2 = 1:size(thetafftplanarright, 3) % this get the l values

% planar right region

[peak_magplanarright, frequenciesplanarright] = findpeaks(thetafftplanarright(Iplanarright,k1,k2), Fshiftplanarright);

[ifreqplanarright]=find(peak_magplanarright==max(peak_magplanarright));

freq_maxpeakplanarright(k1,k2)=frequenciesplanarright(ifreqplanarright(1));

mag_maxpeakplanarright(k1,k2)= peak_magplanarright(ifreqplanarright(1));

end

%% DETERMINE OSCILLATION FOR ENTIRE REGION

% Define threshold for oscillation detection

threshold_freq = 3e5;

threshold_mag = 4.7;

% Planar right

osc_xivalplanarright = [];

osc_lvalplanarright = [];

non_osc_xivalplanarright = [];

non_osc_lvalplanarright = [];

%% Planar right: Iterate over each frequency peak

for k1 = 1:size(freq_maxpeakplanarright, 1)

for k2 = 1:size(freq_maxpeakplanarright, 2)

peak_freqplanarright = freq_maxpeakplanarright(k1, k2);

peak_magplanarright = mag_maxpeakplanarright(k1,k2);

% Check if peak frequency exceeds threshold

if abs(peak_freqplanarright) > threshold_freq && abs(peak_magplanarright)>threshold_mag

osc_xivalplanarright(end+1) = xival(k1);

osc_lvalplanarright(end+1) = lval(k2);

else

non_osc_xivalplanarright(end+1) = xival(k1);

non_osc_lvalplanarright(end+1) = lval(k2);

end

%% Plotting

[C,h1] = contourf(lval,xival,freq_maxpeakplanarright, 'ShowText','off','edgecolor','none');

c.TickLabelInterpreter='latex';

c.Label.String = 'frequency';

c.Label.Interpreter = 'latex';

colormap bone

clabel(C,h1)

set(gca,'clim',[min(min(freq_maxpeakplanarright)) max(max(freq_maxpeakplanarright))]);

hold on

% plot xival and lval for oscillation and non_oscillation

for i=1:length(non_osc_lvalplanarright)

p4a = plot(non_osc_lvalplanarright(i), non_osc_xivalplanarright(i), 'c.', 'LineWidth', 2, 'MarkerSize', 10);

end

for i=1:length(osc_lvalplanarright)

p4b = plot(osc_lvalplanarright(i), osc_xivalplanarright(i), 'r.', 'LineWidth', 2, 'MarkerSize', 10);

end

% fft and the function around the isolated region

fig11 = figure(11);

nxi = linspace(xival(3), xival(12),10);

for ixi = 1:length(nxi)

subplot(5, 2, ixi);

plot(Fshiftplanarright, thetafftplanarright(:, ixi, 13), 'LineWidth',1)

xlabel('frequency','Interpreter','latex')

ylabel('magnitude','Interpreter','latex');

xlim([min(Fshiftplanarright) max(Fshiftplanarright)])

title(['$\xi$ =', num2str(nxi(ixi)), '$, l$ = ', num2str(lval(13))], 'Interpreter','latex');

end

fig12 = figure(12);

for ixi = 1:length(nxi)

subplot(5, 2, ixi);

plot(xplanarright, squeeze(theta(lstop:end, ixi, 13)))

xlabel('$x$','Interpreter','latex')

ylabel('tilt angle, $\theta$','Interpreter','latex');

xlim([min(xplanarright) max(xplanarright)])

title(['$\xi$ =', num2str(nxi(ixi)), '$, l$ = ', num2str(lval(13))], 'Interpreter','latex');

end

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University el 19 de Mzo. de 2024

Editada: Matt J el 19 de Mzo. de 2024

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1.fig

From the attached figure, the region with red color indicates oscillation and 'cyan' means no oscillation. You can see an isoloated white region, where I expect there should be oscillation there as well. The figure you posted is the plot around the isolated region. My worry, why is saying there is not oscillation, where is oscillation. In changed the threshold_mag to this 0.05 to get the attached fig.

openfig 1.fig

ans =

Figure (1) with properties: Number: 1 Name: '' Color: [1 1 1] Position: [360 97.6667 560 420] Units: 'pixels' Use GET to show all properties

Matt J el 19 de Mzo. de 2024

I don't think anybody understands what your many variables and plots mean. But it's a frequency plot, so there shouldn't be oscillation. The Fourier transform of an oscillatory signal is a peak.

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