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I have a general question about fourier series:

Assume F and G are two functions related to each other nonlinearly, for example F can be obtained if G is known; and assume that I can calculate F in terms of G and get the fourier expansion of both F and G as below.

F = a1*cos(w*t)+b1*sin(w*t)+a3*cos(3*w*t)+b3*sin(3*w*t);

G = c1*cos(w*t)+d1*sin(w*t)+c3*cos(3*w*t)+d3*sin(3*w*t);

My question is how can we apply a phase shift (phi) to F numerically in MATLAB and how can I find the phase shift in G since F and G are related? I appreciate if you can explain on an example.

Thank you for your time.

  • Anyone has an idea about what I am asking? I thought it is a simple problem for those who are dealing with signals and waves... – Baha Jan 31 '16 at 3:18
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I found an example very helpful to understand, which answers my question.

I found it online but I can not find it now. Once I do I will post the link here. I hope it will help others too, so here it is:

m = 11 ; 
N_time = (2^m);
w_1 = 0.0307;
T = 2*pi/w_1 ;
Dt = T/2^m;
ffreq = 2*pi/T ; % fundamental frequency
t = linspace(0,T,N_time+1) ;
f = [];
for tk=t
if tk<20
x = 5 ;
f = [f,x] ;
elseif tk<80
x = tk/4*cos(2*pi*tk/20);
f = [f,x] ;
else
x = -tk/10+28 ;
f = [f,x] ;
end
end
fhat = f ;
fhat(1) = (f(1)+f(N_time+1))/2 ;
fhat(N_time+1) = [] ;
F = fft(fhat,N_time) ;
F_0 = F;
F=F(1:N_time/2) ;
k=0:(N_time/2-1) ;
omega=k*ffreq ; % rads/sec
A = 2*real(F)/N_time ;
A(1)= A(1)/2 ;
B =-2*imag(F)/N_time ;
figure;
plot(t, f,'b'); hold on;
plot(t(2:end), real(ifft(F_0)),'--r');

L = 30 ; 
fapprox = A(1)*ones(size(t));
for k=1:L
fapprox = fapprox + A(k+1)*cos(omega(k+1)*t)...
+ B(k+1)*sin(omega(k+1)*t);
end

figure;
plot(t, f,'-b','linewidth',2); hold on; axis tight;
plot(t, fapprox,'--r','linewidth',2);

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