Functions
computes cumulative probabilities for the sample median.
PROBMED
where
|
n |
is the sample size. |
|
x |
is the point of interest; that is, the PROBMED function calculates the probability that the median is less than or equal to x. |
The PROBMED function computes the probability that the sample median is less than or equal to x for a sample of n independent, standard normal random variables (mean 0, variance 1).
Let n represent the sample size and 
represent the ith order statistic. Then, when n is odd, the function calculates
![\[ \Pr [X_{((n+1)/2)}\leq x] = \mbox{I}_{\Phi (x)} \left( \frac{n+1}{2}, \frac{n+1}{2} \right) \]](images/qcug_functions0116.png){kind=small}
where
![\[ \mbox{I}_ p(a,b) = \frac{1}{\mbox{B}(a,b) } \displaystyle \int _0^ p t^{a-1}(1-t)^{b-1}\, dt \]](images/qcug_functions0117.png){kind=small}
and B
, where 
is the gamma function. If n is even, the PROBMED function calculates
![\[ \mbox{Pr} \left[ \frac{ X_{(n/2)} + X_{((n/2)+1)} }{2} \leq x \right] = \]](images/qcug_functions0119.png){kind=small}
![\[ \mbox{} \frac{2}{ \mbox{B}(\frac{n}{2},\frac{n}{2}) } {\displaystyle \int _{-\infty }^ x} \left\{ [1-\Phi (u)]^{n/2}-[1-\Phi (2x-u)]^{n/2} \right\} [\Phi (u)]^{(n/2)-1} \, \phi (u) \, du \]](images/qcug_functions0120.png){kind=small}
where B![$(n/2,n/2) = [\Gamma (n/2)]^2/ \Gamma (n) $](images/qcug_functions0121.png){kind=small}
and 
and 
are the standard normal cumulative distribution function and density function, respectively.
For more information, refer to David (1981).