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How can I correct this error?

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Mallouli Marwa
Mallouli Marwa on 8 Jun 2018
Commented: Mallouli Marwa on 12 Jun 2018
Hello
I have done this program , no error is displayed but any curve is displayed.
Can you help me
clc; clear ; close all;
% acceleartion + displacement
cd Z:\Stage\Travail_fait\marwa
load data1; tmp = data1(:,1); disp = data1(:,2); acc = data1(:,3);
figure(1) plot(tmp, acc, 'b',tmp,acc,'r.') xlable('time (s)'); ylabel('Acceleration (ms^(-2))');
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Mallouli Marwa
Mallouli Marwa on 10 Jun 2018
Hi
See Data1 as attached.
I want also to show disp over tmp instead
Thanks for help

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Accepted Answer

Stephan
Stephan on 11 Jun 2018
Hi,
to show disp over tmp Change the plot command:
plot(tmp, acc, 'b',tmp,disp,'r.')
which will give you this result:
You could also work with subplots using the following code:
figure(1)
subplot(2,1,1)
plot(tmp, acc, 'b')
xlabel('time (s)');
ylabel('Acceleration (ms^(-2))');
subplot(2,1,2)
plot(tmp, disp, 'b')
xlabel('time (s)');
ylabel('Displacement');
Which gives you:
Best regards
Stephan
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Mallouli Marwa
Mallouli Marwa on 12 Jun 2018
I have added this part in the program that calculate the Fourier
Transform of the voltage but the trend is not well.
The curve FRF wanted attached is the best trend.
So How can I ameloirate the trend of this FRF found (figure3 in the program).
The program is:
%% %script traitement signal %objet : traitement signal MPF clc; clear; close all; cd Z:\Matlam\Curves_oscillo_Pc %%
%% load 'data1.txt';
tmp = data1(:,1);
disp = data1(:,2);
acc = data1(:,3);
figure(1)
plot(tmp,acc,'b',tmp,acc,'r.');
xlabel('time (sec)');
ylabel('Acc (ms^{-2})');
%on récupère les données de Oscilloscope en Volt
load 'data1V.txt';
tmpV = data1V(:,1);
Volt = data1V(:,2);
%Voltb = 40e-3*ones(size(tmpV));
figure(2)
plot(tmpV,Volt,'b',tmpV,Volt,'r.');
xlabel('time (sec)');
ylabel('Voltage(V)'); %%
L=length(tmp)
Lv=length(tmpV)
Fs = 5000; % Sampling frequency
NFFT = 2^nextpow2(L) % Next power of 2 from length of y
NFFTV = 2^nextpow2(Lv) % Next power of 2 from length of y
figure(3)
VOLT = fft(Volt,NFFT)/L; % Calcul de la FFT
amplitude = 2*abs(VOLT(1:NFFT));
f = Fs/2*linspace(0,1,NFFT/2);
semilogy(f(1:NFFT/12),2*abs(VOLT(1:NFFT/12)))
xlabel('frequency')
ylabel('FRF Volatage')

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