dBETA: Beta Distribution
In fitODBOD: Modeling Over Dispersed Binomial Outcome Data Using BMD and ABD
dBETA R Documentation
Beta Distribution
Description
These functions provide the ability for generating probability density values,
cumulative probability density values and moment about zero values for the
Beta Distribution bounded between [0,1]
Usage
dBETA(p,a,b)
Arguments
p
vector of probabilities.
a
single value for shape parameter alpha representing as a.
b
single value for shape parameter beta representing as b.
Details
The probability density function and cumulative density function of a unit
bounded Beta distribution with random variable P are given by
g_{P}(p)= \frac{p^{a-1}(1-p)^{b-1}}{B(a,b)}
; 0 \le p \le 1
G_{P}(p)= \frac{B_p(a,b)}{B(a,b)}
; 0 \le p \le 1
a,b > 0
The mean and the variance are denoted by
E[P]= \frac{a}{a+b}
var[P]= \frac{ab}{(a+b)^2(a+b+1)}
The moments about zero is denoted as
E[P^r]= \prod_{i=0}^{r-1} (\frac{a+i}{a+b+i})
r = 1,2,3,...
Defined as B_p(a,b)=\int^p_0 t^{a-1} (1-t)^{b-1}\,dt is
incomplete beta integrals and B(a,b) is the beta function.
NOTE : If input parameters are not in given domain conditions necessary error
messages will be provided to go further.
Value
The output of dBETA gives a list format consisting
pdf probability density values in vector form.
mean mean of the Beta distribution.
var variance of the Beta distribution.
References
\insertRefjohnson1995continuousfitODBOD
\insertReftrenkler1996continuousfitODBOD
See Also
Beta
or
https://stat.ethz.ch/R-manual/R-devel/library/stats/html/Beta.html
Examples
#plotting the random variables and probability values
col <- rainbow(4)
a <- c(1,2,5,10)
plot(0,0,main="Probability density graph",xlab="Random variable",ylab="Probability density values",
xlim = c(0,1),ylim = c(0,4))
for (i in 1:4)
{
lines(seq(0,1,by=0.01),dBETA(seq(0,1,by=0.01),a[i],a[i])$pdf,col = col[i])
}
dBETA(seq(0,1,by=0.01),2,3)$pdf #extracting the pdf values
dBETA(seq(0,1,by=0.01),2,3)$mean #extracting the mean
dBETA(seq(0,1,by=0.01),2,3)$var #extracting the variance
#plotting the random variables and cumulative probability values
col <- rainbow(4)
a <- c(1,2,5,10)
plot(0,0,main="Cumulative density graph",xlab="Random variable",ylab="Cumulative density values",
xlim = c(0,1),ylim = c(0,1))
for (i in 1:4)
{
lines(seq(0,1,by=0.01),pBETA(seq(0,1,by=0.01),a[i],a[i]),col = col[i])
}
pBETA(seq(0,1,by=0.01),2,3) #acquiring the cumulative probability values
mazBETA(1.4,3,2) #acquiring the moment about zero values
mazBETA(2,3,2)-mazBETA(1,3,2)^2 #acquiring the variance for a=3,b=2
#only the integer value of moments is taken here because moments cannot be decimal
mazBETA(1.9,5.5,6)
fitODBOD documentation built on Oct. 10, 2024, 5:07 p.m.
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| dBETA | R Documentation |
Beta Distribution
Description
These functions provide the ability for generating probability density values, cumulative probability density values and moment about zero values for the Beta Distribution bounded between [0,1]
Usage
dBETA(p,a,b)
Arguments
p |
vector of probabilities. |
a |
single value for shape parameter alpha representing as a. |
b |
single value for shape parameter beta representing as b. |
Details
The probability density function and cumulative density function of a unit bounded Beta distribution with random variable P are given by
g_{P}(p)= \frac{p^{a-1}(1-p)^{b-1}}{B(a,b)}
; 0 \le p \le 1
G_{P}(p)= \frac{B_p(a,b)}{B(a,b)}
; 0 \le p \le 1
a,b > 0
The mean and the variance are denoted by
E[P]= \frac{a}{a+b}
var[P]= \frac{ab}{(a+b)^2(a+b+1)}
The moments about zero is denoted as
E[P^r]= \prod_{i=0}^{r-1} (\frac{a+i}{a+b+i})
r = 1,2,3,...
Defined as B_p(a,b)=\int^p_0 t^{a-1} (1-t)^{b-1}\,dt is
incomplete beta integrals and B(a,b) is the beta function.
NOTE : If input parameters are not in given domain conditions necessary error messages will be provided to go further.
Value
The output of dBETA gives a list format consisting
pdf probability density values in vector form.
mean mean of the Beta distribution.
var variance of the Beta distribution.
References
\insertRefjohnson1995continuousfitODBOD \insertReftrenkler1996continuousfitODBOD
See Also
Beta
or
https://stat.ethz.ch/R-manual/R-devel/library/stats/html/Beta.html
Examples
#plotting the random variables and probability values
col <- rainbow(4)
a <- c(1,2,5,10)
plot(0,0,main="Probability density graph",xlab="Random variable",ylab="Probability density values",
xlim = c(0,1),ylim = c(0,4))
for (i in 1:4)
{
lines(seq(0,1,by=0.01),dBETA(seq(0,1,by=0.01),a[i],a[i])$pdf,col = col[i])
}
dBETA(seq(0,1,by=0.01),2,3)$pdf #extracting the pdf values
dBETA(seq(0,1,by=0.01),2,3)$mean #extracting the mean
dBETA(seq(0,1,by=0.01),2,3)$var #extracting the variance
#plotting the random variables and cumulative probability values
col <- rainbow(4)
a <- c(1,2,5,10)
plot(0,0,main="Cumulative density graph",xlab="Random variable",ylab="Cumulative density values",
xlim = c(0,1),ylim = c(0,1))
for (i in 1:4)
{
lines(seq(0,1,by=0.01),pBETA(seq(0,1,by=0.01),a[i],a[i]),col = col[i])
}
pBETA(seq(0,1,by=0.01),2,3) #acquiring the cumulative probability values
mazBETA(1.4,3,2) #acquiring the moment about zero values
mazBETA(2,3,2)-mazBETA(1,3,2)^2 #acquiring the variance for a=3,b=2
#only the integer value of moments is taken here because moments cannot be decimal
mazBETA(1.9,5.5,6)
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