phase angle from discrte hilbert tranform

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bobby
bobby el 2 de Dic. de 2011
Comentada: Fatma Keskin el 20 de Mayo de 2023
If I have time series data and I want to Hilbert transformation it to get the phase angle as a function of time what do I need to do? Sorry I'm completely stumped and brand new to matlab

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Wayne King
Wayne King el 2 de Dic. de 2011
Hi Bobby, the derivative of the phase of the analytic signal is the instantaneous frequency that is true. But estimating the instantaneous frequency is tricky business. There are a number of papers on algorithms for that. It's very sensitive to noise for one thing. Yes, in the simple case I gave you, you can fit a least squares line to the unwrapped phase and get the frequency. But that is because the instantaneous frequency is the same everywhere.
x = cos(pi/4*(0:99));
y = hilbert(x);
sigphase = (unwrap(angle(y)))';
X = ones(length(sigphase),2);
X(:,2) = (1:length(sigphase))';
beta = X\sigphase;
beta(2)
Note beta(2) is very close to the frequency of pi/4. But this is a very simple example where the frequency is not changing.
  3 comentarios
Wayne King
Wayne King el 2 de Dic. de 2011
I can recommend:
B. Boashash, “Estimating and interpreting the instantaneous frequency of asignal. II. Algorithms and applications,” Proceedings of the IEEE, vol. 80, no. 4, pp. 540–568, 1992.
Wayne King
Wayne King el 2 de Dic. de 2011
yea, it definitely won't be a simple process. If you're feeling ready to head into the thick of it, write back and I can suggest a few routes, but it's definitely tricky business. Don't get me wrong, it's a fruitful endeavor, but not straightforward.

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Más respuestas (1)

Wayne King
Wayne King el 2 de Dic. de 2011
Hi, Do you really just want the phase function, or are you trying to get the instantaneous frequency. At any rate, you can get the phase with:
x = cos(pi/4*(0:100));
y = hilbert(x);
sigphase = atan2(imag(y),real(y));
% or
sigphase = angle(y);
  3 comentarios
bobby
bobby el 2 de Dic. de 2011
Well, I think that is what I want, I am reading a paper that says they use the hilbert transform method of finding a frequency that was described by gabor. It appears that from the hilbert transform I want to get a graph of the phase as a function of time and the least squares fit to the line would be the frequency. Would that make sense?
Fatma Keskin
Fatma Keskin el 20 de Mayo de 2023
If we have an amplitude modulated signal, what would the instantaneous phase give me? Phase of the envelope or the actual oscillation?

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