In probability theory and statistics, the raised cosine distribution is a continuous probability distribution supported on the interval
[\mu-s,\mu+s]
| f(x;\mu,s)= | 1 | \left[1+\cos\left( |
| 2s |
| x-\mu | \pi\right)\right]= | |
| s |
| 1 | \operatorname{hvc}\left( | |
| s |
| x-\mu | |
| s |
\pi\right)for\mu-s\lex\le\mu+s
and zero otherwise. The cumulative distribution function (CDF) is
| F(x;\mu,s)= | 1 | \left[1+ |
| 2 |
| x-\mu | |
| s |
+
| 1 | \sin\left( | |
| \pi |
| x-\mu | |
| s |
\pi\right)\right]
for
\mu-s\lex\le\mu+s
x<\mu-s
x>\mu+s
The moments of the raised cosine distribution are somewhat complicated in the general case, but are considerably simplified for the standard raised cosine distribution. The standard raised cosine distribution is just the raised cosine distribution with
\mu=0
s=1
\begin{align} \operatornameE(x2n)&=
| 1 | |
| 2 |
| 1 | |
| \int | |
| -1 |
[1+\cos(x\pi)]x2ndx=
| 1 | |
| \int | |
| -1 |
x2n\operatorname{hvc}(x\pi)dx\\[5pt] &=
| 1 | + | |
| n+1 |
| 1 | |
| 1+2n |
1F2\left(n+
| 1 | |
| 2 |
;
| 1 | |
| 2 |
,n+
| 3 | |
| 2 |
;
| -\pi2 | |
| 4 |
\right) \end{align}
where
1F2