T. _______________________________________________ dupswapdrop: music-dsp mailing list music-dsp@music.columbia.edu https://lists.columbia.edu/mailman/listinfo/music-dsp
In the course of these discussions, let's not forget the difference between a convolution
with 1/(Pi*t) (a Hilbert transform kernel) and the inversion of the transfer function of a
linear system.
- Re: [music-dsp] how to de... Ethan Duni
- Re: [music-dsp] how to de... Ethan Fenn
- Re: [music-dsp] how to de... robert bristow-johnson
- Re: [music-dsp] how to de... Sampo Syreeni
- Re: [music-dsp] how to derive spec... Ethan Duni
- Re: [music-dsp] how to derive spectrum of random sa... Theo Verelst
- Re: [music-dsp] how to derive spectrum of random sa... Vadim Zavalishin
- Re: [music-dsp] how to derive spectrum of random sa... Vadim Zavalishin
- Re: [music-dsp] how to derive spectrum of rand... Vadim Zavalishin
- Re: [music-dsp] how to derive spectrum of random sa... Dan Stowell
- Re: [music-dsp] how to derive spectrum of random sa... Theo Verelst
- [music-dsp] how to derive spectrum of random sample... Martin Vicanek
- Re: [music-dsp] how to derive spectrum of rand... Martin Vicanek
- Re: [music-dsp] how to derive spectrum of ... robert bristow-johnson
- Re: [music-dsp] how to derive spectrum... Ethan Duni
- Re: [music-dsp] how to derive spectrum of rand... Martin Vicanek
- Re: [music-dsp] how to derive spectrum of ... robert bristow-johnson
- Re: [music-dsp] how to derive spectrum of ... Martin Vicanek
- Re: [music-dsp] how to derive spectrum of random sa... Theo Verelst
