BETNIN

FNLSpecFunc : Probability Distribution Functions and Inverses : BETNIN

BETNIN

Function Return Value

This function evaluates the inverse of the noncentral beta cumulative distribution function (CDF).

Function Return Value

BETNIN — Function value, the value of the inverse of the cumulative distribution function evaluated at P. The probability that a noncentral beta random variable takes a value less than or equal to BETNIN is P. (Output)

Required Arguments

P — Probability for which the inverse of the noncentral beta cumulative distribution function is to be evaluated. (Input)
P must be non‑negative and less than or equal to 1.

SHAPE1 — First shape parameter of the noncentral beta distribution. (Input)
SHAPE1 must be positive.

SHAPE2 — Second shape parameter of the noncentral beta distribution. (Input)
SHAPE2 must be positive.

LAMBDA — Noncentrality parameter. (Input)
LAMBDA must be non‑negative.

FORTRAN 90 Interface

Generic: BETNIN (P, SHAPE1, SHAPE2, LAMBDA)

Specific: The specific interface names are S_BETNIN and D_BETNIN.

Description

The noncentral beta distribution is a generalization of the beta distribution. If

is a noncentral chi-square random variable with noncentrality parameter

and

degrees of freedom, and

is a chi-square random variable with

degrees of freedom which is statistically independent of

, then

is a noncentral beta‑distributed random variable and

is a noncentral F-distributed random variable. The CDF for noncentral beta variable

can thus be simply defined in terms of the noncentral F CDF:

where

is a noncentral beta CDF with x = x, α1 = SHAPE1, α2 = SHAPE2, and noncentrality parameter λ = LAMBDA;

is a noncentral F CDF with argument f , numerator and denominator degrees of freedom 2α1 and 2α2 respectively, and noncentrality parameter λ; p = the probability that F ≤ f = the probability that X ≤ x and:

(See the documentation for function FNDF for a discussion of how the noncentral F CDF is defined and calculated.) The correspondence between the arguments of function BETNIN(P,SHAPE1,SHAPE2,LAMBDA) and the variables in the above equations is as follows: α1 = SHAPE1, α2 = SHAPE2, λ = LAMBDA, and p = P.

Function BETNIN evaluates

by first evaluating

and then solving for x using

(See the documentation for function FNIN for a discussion of how the inverse noncentral F CDF is calculated.)

Example

This example traces out a portion of an inverse noncentral beta distribution with parameters
SHAPE1 = 50, SHAPE2 = 5, and LAMBDA = 10.

USE UMACH_INT

USE BETNDF_INT

USE BETNIN_INT

USE UMACH_INT

IMPLICIT NONE

INTEGER :: NOUT, I

REAL :: SHAPE1 = 50.0, SHAPE2=5.0, LAMBDA=10.0

REAL :: X, CDF, CDFINV

REAL :: F0(8)=(/ 0.0, .4, .8, 1.2, 1.6, 2.0, 2.8, 4.0 /)

CALL UMACH (2, NOUT)

WRITE (NOUT,'(/" SHAPE1: ", F4.0, " SHAPE2: ", F4.0,'// &

'" LAMBDA: ", F4.0 // ' // &

'" X P = CDF(X) CDFINV(P)")') &

SHAPE1, SHAPE2, LAMBDA

DO I = 1, 8

X = (SHAPE1*F0(I))/(SHAPE2 + SHAPE1*F0(I))

CDF = BETNDF(X, SHAPE1, SHAPE2, LAMBDA)

CDFINV = BETNIN(CDF, SHAPE1, SHAPE2, LAMBDA)

WRITE (NOUT,'(3(2X, E12.6))') X, CDF, CDFINV

END DO

END

Output

SHAPE1: 50. SHAPE2: 5. LAMBDA: 10.

X P = CDF(X) CDFINV(P)

0.000000E+00 0.000000E+00 0.000000E+00

0.800000E+00 0.488791E-02 0.800000E+00

0.888889E+00 0.202633E+00 0.888889E+00

0.923077E+00 0.521144E+00 0.923077E+00

0.941176E+00 0.733853E+00 0.941176E+00

0.952381E+00 0.850413E+00 0.952381E+00

0.965517E+00 0.947125E+00 0.965517E+00

0.975610E+00 0.985358E+00 0.975610E+00