This may help... [online draft of Puckette's book]:
http://msp.ucsd.edu/techniques/latest/book-html/node105.html
"The main reason we use complex numbers in electronic music is because they magically automate trigonometric calculations. We frequently have to add angles together in order to talk about the changing phase of an audio signal as time progresses (or as it is shifted in time, as in this chapter). It turns out that, if you multiply two complex numbers, the argument of the product is the sum of the arguments of the two factors. [etc]"
On Tue, Aug 12, 2014 at 5:34 PM, Alexandre Torres Porres porres@gmail.com wrote:
Frequency response is normally computed in terms of
magnitude and phase--because the result of applying
a filter is to multiply the magnitudes and shift (add) the
phases.
That seems clear for me. I know how to get both mag/phase but my patch is simplified to get the magnitude only. I also know how to get mag & phase with real/Imaginary parts too. Where I get stuck is the z transform deal. More precisely, adapting the patch to a complex version.
For instance, it works on plotting the freq response of a real pole with an input of the filter coefficient. But I’d like to plot the freq response of complex pole, from the real and imaginary part of the coefficient.
To put it in terms of 'f' in Hz relative to the sampling frequency, use w=(2*pi/Fs) * f, with Fs=sampling frequency in Hz
Yeah, the patch already calculates frequency in rad/sample. More over, it uses complex frequencies, which are the cosine and sine of the freq in rad/sample.
Now, as I said before, I know the transfer function of [cpole~] is is H(Z) = 1/(1 - aZ^-1) – just like the [rpole~] by the way – but that is not clear on how to deal with a complex coefficient.
The next problem: you get a complex number in the denominator.
I guess you mean what I just said :)
Multiply numerator and denominator by the conjugate and split into
real and imaginary parts before applying the magnitude and phase
calculations to get your spectrum. Your coefficient 'a' is a complex
number, so work carefully with the conjugate math to separate the
real and imaginary parts.
well, if this is the solution to my problem, I don’t think I could follow what you meant.
Anyway, I’m attaching a much more objective and simpler version of the patch I’ve sent before. It also has a descriptive text that explains the patch and the issue. I think I’m really close to nailing this. I just need a tiny hand with the math.
Thanks
Alex
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