Reply by March 1, 20052005-03-01
djklein <kleinsound@yahoo.com> wrote:
> > I don't completely understand your reply. What do you mean by "your > transformation"
Andor's proposition
> and what do you mean by "check hilbert transform > orthogonality"?
Original signal and Hilbert transformed are orthogonal.
> I understand the operations required in the Fourier domain, and I was
Frequency domain isn't necessary but often used. Why? Because it's simple method but has drawbacks (errors in time domain). Hilbert transform is defined as time domain integral.
> hoping this would transfer to a simple operation on ARMA coefficients > (e.g., a rotation, as the multiplication by would imply).
No, doing in frequency domain you will transform a "transfer function" of arma filter. After IFFT you get an impulse response - where are your new coefficients??? You must fit new arma to new impulse response. Ask google about "IIR Hilbert" or "90 phase allpass" - in second case you will connect serially (convolute) original arma and allpass. Real hilbert transform solutions are always approximations, they works only in band limited case if you arma transfer function doesn't fall to zero at both 0 and nyquist frequencies you are in trouble.
Reply by djklein February 28, 20052005-02-28
I don't completely understand your reply.  What do you mean by "your
transformation" and what do you mean by "check hilbert transform
orthogonality"?

I understand the operations required in the Fourier domain, and I was
hoping this would transfer to a simple operation on ARMA coefficients
(e.g., a rotation, as the multiplication by would imply).

Thanks,
David

pisz_na.mirek@dionizos.zind.ikem.pwr.wroc.pl wrote:
> Andor <an2or@mailcircuit.com> wrote: > > Sorry. Multiply each AR coefficient with -j, or the MA coefficients > > with j. > > Which of course isn't true :) > > Try your transformation on only MA (FIR) process and check hilbert
transform
> orthogonality property.
Reply by Andor February 26, 20052005-02-26
Yeah, that was silly. It's one of my s-z domain confusions. scuse me!

Reply by February 26, 20052005-02-26
Andor <an2or@mailcircuit.com> wrote:
> Sorry. Multiply each AR coefficient with -j, or the MA coefficients > with j.
Which of course isn't true :) Try your transformation on only MA (FIR) process and check hilbert transform orthogonality property.
Reply by Andor February 26, 20052005-02-26
Sorry. Multiply each AR coefficient with -j, or the MA coefficients
with j.

Reply by Andor February 26, 20052005-02-26
You can just multiply the two transfer functions, ie. multiply each AR
coefficient with j.

Reply by dklein February 26, 20052005-02-26
Suppose I have an ARMA filter of order N with known A and B coefficients. 
Does there exist another ARMA filter of order N whose impulse response
(and output) is the Hilbert transform of the original filter?  If so, what
is the expression relating the two sets of coefficients?  

Thanks!


 


		
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