stem/Signal Proc/Transfer Function.md
andy 5a94c5ff1a vault backup: 2023-06-06 17:01:49
Affected files:
STEM/AI/Kalman Filter.md
STEM/Signal Proc/Convolution.md
STEM/Signal Proc/Image/Tracking.md
STEM/Signal Proc/Pole-Zero.md
STEM/Signal Proc/Transfer Function.md
STEM/Speech/Linguistics/Consonants.md
STEM/Speech/Linguistics/Linguistics.md
STEM/Speech/Linguistics/README.md
STEM/Speech/Linguistics/Terms.md
STEM/Speech/Linguistics/Vowels.md
STEM/Speech/NLP/Jargon.md
STEM/Speech/NLP/NLP.md
STEM/Speech/NLP/README.md
STEM/Speech/NLP/Recognition.md
STEM/Speech/Perception/Perception.md
STEM/Speech/Perception/README.md
STEM/Speech/Speech Processing/Applications.md
STEM/Speech/Speech Processing/README.md
STEM/Speech/Speech Processing/Source-Filter.md
STEM/Speech/Speech Processing/Vocal Tract.md
STEM/img/english-phoneme-table.png
STEM/img/formant.png
STEM/img/pole-zero-attenuation.png
STEM/img/pole-zero-feedback.png
STEM/img/pole-zero-stable.png
STEM/img/roc-right-left.png
STEM/img/roc-two-sided.png
STEM/img/spectrum-vocal-tract.png
STEM/img/transfer-stable-unstable.png
STEM/img/vowel-chart.png
STEM/img/vowel-spaces.png
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Markdown

$$Y(s)=H(s)\cdot X(s)$$
- $H(s)=\frac{Y(s)}{X(s)}=\frac{\mathcal L\{y(t)\}}{\mathcal L\{x(t)\}}$
$$Y(z)=H(z)\cdot X(z)$$
- $H(z)=\frac{Y(z)}{X(z)}=\frac{\mathcal Z\{y[n]\}}{\mathcal Z\{x[n]\}}$
$$G(\omega)=\frac{|Y|}{|X|}=|H(j\omega)|$$
- $H(j\omega)$, Frequency response
$$\phi(\omega)=arg(Y)-arg(X)=arg\left(H\left(j\omega\right)\right)$$
- $\phi(\omega)$, Phase shift
$$\tau_\phi(\omega)=-\frac{\phi(\omega)}{\omega}$$
- $\tau_\phi$, Phase delay
- Frequency-dependent amount of delay introduced to the sinusoid by $H$
$$\tau_g(\omega)=-\frac{d\phi(\omega)}{d\omega}$$
- $\tau_g$, Group delay
- Frequency-dependent amount of delay introduced to the envelope of the sinusoid by $H$
[Partial Fractions](https://lpsa.swarthmore.edu/BackGround/PartialFraction/PartialFraction.html#Order_of_numerator_polynomial_is_not_less_than_that_of_the_denominator)
[Partial Fractions for Laplace](https://lpsa.swarthmore.edu/LaplaceXform/InvLaplace/InvLaplaceXformPFE.html)
[Inverse Z Transform](https://lpsa.swarthmore.edu/ZXform/InvZXform/InvZXform.html)
[Discrete Time Systems:Impulse responses and convolution; An introduction to the Z-transform](https://homes.esat.kuleuven.be/~maapc/static/files/SYSTHEORY/Slides/Lecture5/Lecture5-Impulse%20responses%20and%20convolution%20layout.pdf)