Gaussian Mean

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Gaussian Mean

The mean of a distribution is defined as its first-order moment:

$\displaystyle \mu \isdef \int_{-\infty}^\infty t f(t)dt$

To show that the mean of the Gaussian distribution is $\mu$ , we may write, letting $g\isdef 1/\sqrt{2\pi\sigma^2}$ ,

$\begin{eqnarray*} \int_{-\infty}^\infty t f(t) dt &\isdef & g \int_{-\infty}^\in... ...^2}{2\sigma^2}} \right\vert _{-\infty}^{\infty} + \mu\\ &=& \mu \end{eqnarray*}$

since $f(\pm\infty)=0$ .

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About the Author: Julius Orion Smith III
Julius Smith's background is in electrical engineering (BS Rice 1975, PhD Stanford 1983). He is presently Professor of Music and Associate Professor (by courtesy) of Electrical Engineering at Stanford's Center for Computer Research in Music and Acoustics (CCRMA), teaching courses and pursuing research related to signal processing applied to music and audio systems. See http://ccrma.stanford.edu/~jos/ for details.

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Spectral Audio Signal Processing
    Gaussian Function Properties
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          Gaussian Mean

Gaussian Mean

Order a Hardcopy of Spectral Audio Signal Processing

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Search Online Books

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Chapters

See Also

Spectral Audio Signal Processing Gaussian Function Properties Gaussian Moments Gaussian Mean

Gaussian Mean

Order a Hardcopy of Spectral Audio Signal Processing

Spectral Audio Signal Processing
Gaussian Function Properties
Gaussian Moments
Gaussian Mean