Vocoder Block Diagram

Vocoder Block Diagram

$\begin{psfrags}\psfrag{x} []{ \large$ x(t)$\ }\psfrag{X0} []{ \large$ x_0(t) $\ }\psfrag{X1} []{ \large$ x_1(t)$\ }\psfrag{XNM1} []{ \large$ x_{N-1}(t)$\ }\psfrag{xhat} []{ \large$ \hat{x}(t)$\ }\psfrag{Xhat0} []{ \large$ \hat{x}_0(t) $\ }\psfrag{Xhat1} []{ \large$ \hat{x}_1(t)$\ }\psfrag{XhatNM1} []{ \large$ \hat{x}_{N-1}(t)$\ }\begin{center} \epsfig{file=eps/vocoder.eps,width=\textwidth } \\ \end{center} \end{psfrags}$
Input signal is decomposed into subbands.

Channel Vocoder:
Form amplitude envelope in each band
Phase Vocoder:
Compute amplitude and phase envelopes versus time

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``Lecture 4: Sinusoidal Modeling and the Phase Vocoder'', by Julius O. Smith III, (From Lecture Overheads, Music 421).
Copyright © 2020-06-27 by Julius O. Smith III
Center for Computer Research in Music and Acoustics (CCRMA), Stanford University
[Automatic-links disclaimer]

Vocoder Block Diagram

``Lecture 4: Sinusoidal Modeling and the Phase Vocoder'', by Julius O. Smith III, (From Lecture Overheads, Music 421). Copyright © 2020-06-27 by Julius O. Smith III Center for Computer Research in Music and Acoustics (CCRMA), Stanford University [Automatic-links disclaimer]

``Lecture 4: Sinusoidal Modeling and the Phase Vocoder'', by Julius O. Smith III, (From Lecture Overheads, Music 421).
Copyright © 2020-06-27 by Julius O. Smith III
Center for Computer Research in Music and Acoustics (CCRMA), Stanford University
[Automatic-links disclaimer]