Learn R Programming

fitODBOD (version 1.5.3)

mazGBeta1: Generalized Beta Type-1 Distribution

Description

These functions provide the ability for generating probability density values, cumulative probability density values and moment about zero values for the Generalized Beta Type-1 Distribution bounded between [0,1].

Usage

mazGBeta1(r,a,b,c)

Value

The output mazGBeta1 gives the moments about zero in vector form.

Arguments

r

vector of moments

a

single value for shape parameter alpha representing as a.

b

single value for shape parameter beta representing as b.

c

single value for shape parameter gamma representing as c.

Details

The probability density function and cumulative density function of a unit bounded Generalized Beta Type-1 Distribution with random variable P are given by

$$g_{P}(p)= \frac{c}{B(a,b)} p^{ac-1} (1-p^c)^{b-1} $$; \(0 \le p \le 1\) $$G_{P}(p)= \frac{p^{ac}}{aB(a,b)} 2F1(a,1-b;p^c;a+1) $$ \(0 \le p \le 1\) $$a,b,c > 0$$

The mean and the variance are denoted by $$E[P]= \frac{B(a+b,\frac{1}{c})}{B(a,\frac{1}{c})} $$ $$var[P]= \frac{B(a+b,\frac{2}{c})}{B(a,\frac{2}{c})}-(\frac{B(a+b,\frac{1}{c})}{B(a,\frac{1}{c})})^2 $$

The moments about zero is denoted as $$E[P^r]= \frac{B(a+b,\frac{r}{c})}{B(a,\frac{r}{c})} $$ \(r = 1,2,3,....\)

Defined as \(B(a,b)\) is Beta function. Defined as \(2F1(a,b;c;d)\) is Gaussian Hypergeometric function.

NOTE : If input parameters are not in given domain conditions necessary error messages will be provided to go further.

References

manoj2013mcdonaldfitODBOD janiffer2014estimatingfitODBOD roozegar2017mcdonaldfitODBOD

Examples

Run this code
#plotting the random variables and probability values
col <- rainbow(5)
a <- c(.1,.2,.3,1.5,2.15)
plot(0,0,main="Probability density graph",xlab="Random variable",ylab="Probability density values",
xlim = c(0,1),ylim = c(0,10))
for (i in 1:5)
{
lines(seq(0,1,by=0.001),dGBeta1(seq(0,1,by=0.001),a[i],1,2*a[i])$pdf,col = col[i])
}

dGBeta1(seq(0,1,by=0.01),2,3,1)$pdf    #extracting the pdf values
dGBeta1(seq(0,1,by=0.01),2,3,1)$mean   #extracting the mean
dGBeta1(seq(0,1,by=0.01),2,3,1)$var    #extracting the variance

pGBeta1(0.04,2,3,4)        #acquiring the cdf values for a=2,b=3,c=4
mazGBeta1(1.4,3,2,2)              #acquiring the moment about zero values
mazGBeta1(2,3,2,2)-mazGBeta1(1,3,2,2)^2        #acquiring the variance for a=3,b=2,c=2

#only the integer value of moments is taken here because moments cannot be decimal
mazGBeta1(3.2,3,2,2)

Run the code above in your browser using DataLab