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Does anyone know what bullseye distribution is?

It should be a special case of Weibull distribution, but I haven't found any useful information after googled it.

Just for information, I heard this term from a german.

So it could be some uncommon translation from german to english.

And moreover, it represents a result due to a combination of independent impacts.

Thanks a lot. I would say this is a proper math question though no formulae are involved.

UPDATE: Thanks Ross Millikan for the answer!

I have some following questions.

Does Rayleigh distribtuion only represent a 2D Gaussian distribution?

For completeness, this statement can be made as following:

$X \sim N(\mu, \sigma)$ and $Y \sim N(\mu, \sigma)$

then $\sqrt{X^{2}+Y^{2}} \sim Rayleigh(\sigma)$

So, is there a distribution which can be explicitly written for multidimensional Gaussian distribtuion,lets say N-dim?

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    http://en.wikipedia.org/wiki/Chi-square_distribution#Definition2011-07-18

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One guess would be the Rayleigh distribution, a two dimensional Gaussian. Because there is zero area at the origin, the distribution in radius has a maximum.

Added: yes, you can do N dimensional Gaussian distributions. If you look at the Rayleigh distribution, it is just a joint Gaussian in $x$ and $y$. The distribution in $r=\sqrt{x^2+y^2}$ comes from integrating the area of an annulus from $r$ to $r+dr$. You can do the same in more dimensions. multiplying Gaussians in $x, y, z, \ldots$. The factor $r$ will become $r^{N-1}$ and the constant will change.

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    @RossMillikan A minor quibble. Newbie is not quite correct in his assertion about $\chi^2$ random variables. With$2$variables, $\sqrt{X_1^2 + X_2^2}$ is a Rayleigh random variable but it is $X_1^2 + X_2^2$ that is a $\chi^2$ random variable with $2$ degrees of freedom (a.k.a. exponential random variable), and similarly for larger $n$, the pdf of the $\sqrt{\sum_i X_i^2}$ is proportional to $x^{n-1}\exp(-x^2/2)$ which is not a $\chi^2$ distribution.2011-10-04