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Transfer function between two audio signals - MathWorks
https://la.mathworks.com/matlabcentral/answers/323198-transfer-function-between-two-audio-signals#:~:text=As%20far%20as%20transfer%20function%20for%20the%20signals%2C,Sign%20in%20to%20answer%20this%20question.%20Translated%20by
Transfer Function - audiomeasurements.com
http://www.audiomeasurements.com/?page_id=1384
A transfer function compares two signals and shows the frequency, phase and impulse difference between the two. Because of this, it’s absolutely essential to be clear on which signal is being compared to which signal at all times. One signal is considered the reference while the other is the comparison to that reference.
Transfer function between two audio signals
https://www.mathworks.com/matlabcentral/answers/323198-transfer-function-between-two-audio-signals
Taking two audio signals x and x2 as inputs it returns two vectors, x_oct_pow and x2_oct_pow, containing the power for each band. Below the code of the function: function [x_pow_oct, x2_pow_oct, Fc] = octave(x, x2, Fs)
Transfer Functions | Physical Audio Signal Processing
https://www.dsprelated.com/freebooks/pasp/Transfer_Functions.html
Transfer Functions | Physical Audio Signal Processing Transfer Functions As developed in Book II [ 449 ], a discrete-time transfer function is the z transform of the impulse response of a linear, time-invariant ( LTI) system.
Transfer function between two audio signals - MathWorks
https://la.mathworks.com/matlabcentral/answers/323198-transfer-function-between-two-audio-signals
Taking two audio signals x and x2 as inputs it returns two vectors, x_oct_pow and x2_oct_pow, containing the power for each band. Below the code of the function: function [x_pow_oct, x2_pow_oct, Fc] = octave(x, x2, Fs)
Passing an audio signal through a transfer function
https://www.mathworks.com/matlabcentral/answers/518148-passing-an-audio-signal-through-a-transfer-function
If they are calculated as continuous s-space polynomials, they need to be transformed to discrete transfer functions with a known sampling interval, ‘Ts’, that is tthe reciprocal of the sampling frequency of the audio file, so ‘1/Fs’. It is then possible to filter it, preferably with the Signal Processing Toolbox filtfilt function.
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