public class BinomialDistribution extends AbstractIntegerDistribution
Constructor and Description |
---|
BinomialDistribution(int trials,
double p)
Create a binomial distribution with the given number of trials and
probability of success.
|
Modifier and Type | Method and Description |
---|---|
double |
cumulativeProbability(int x)
For a random variable
X whose values are distributed according
to this distribution, this method returns P(X <= x) . |
int |
getNumberOfTrials()
Access the number of trials for this distribution.
|
double |
getNumericalMean()
Use this method to get the numerical value of the mean of this
distribution.
|
double |
getNumericalVariance()
Use this method to get the numerical value of the variance of this
distribution.
|
double |
getProbabilityOfSuccess()
Access the probability of success for this distribution.
|
int |
getSupportLowerBound()
Access the lower bound of the support.
|
int |
getSupportUpperBound()
Access the upper bound of the support.
|
boolean |
isSupportConnected()
Use this method to get information about whether the support is
connected, i.e.
|
double |
logProbability(int x)
For a random variable
X whose values are distributed according to
this distribution, this method returns log(P(X = x)) , where
log is the natural logarithm. |
double |
probability(int x)
For a random variable
X whose values are distributed according
to this distribution, this method returns P(X = x) . |
inverseCumulativeProbability, probability, solveInverseCumulativeProbability
public BinomialDistribution(int trials, double p) throws MathIllegalArgumentException
trials
- Number of trials.p
- Probability of success.MathIllegalArgumentException
- if trials < 0
.MathIllegalArgumentException
- if p < 0
or p > 1
.public int getNumberOfTrials()
public double getProbabilityOfSuccess()
public double probability(int x)
X
whose values are distributed according
to this distribution, this method returns P(X = x)
. In other
words, this method represents the probability mass function (PMF)
for the distribution.x
- the point at which the PMF is evaluatedx
public double logProbability(int x)
X
whose values are distributed according to
this distribution, this method returns log(P(X = x))
, where
log
is the natural logarithm. In other words, this method
represents the logarithm of the probability mass function (PMF) for the
distribution. Note that due to the floating point precision and
under/overflow issues, this method will for some distributions be more
precise and faster than computing the logarithm of
IntegerDistribution.probability(int)
.
The default implementation simply computes the logarithm of probability(x)
.
logProbability
in interface IntegerDistribution
logProbability
in class AbstractIntegerDistribution
x
- the point at which the PMF is evaluatedx
public double cumulativeProbability(int x)
X
whose values are distributed according
to this distribution, this method returns P(X <= x)
. In other
words, this method represents the (cumulative) distribution function
(CDF) for this distribution.x
- the point at which the CDF is evaluatedx
public double getNumericalMean()
n
trials and probability parameter p
, the mean is
n * p
.Double.NaN
if it is not definedpublic double getNumericalVariance()
n
trials and probability parameter p
, the variance is
n * p * (1 - p)
.Double.POSITIVE_INFINITY
or
Double.NaN
if it is not defined)public int getSupportLowerBound()
inverseCumulativeProbability(0)
. In other words, this
method must return
inf {x in Z | P(X <= x) > 0}
.
p = 1
.public int getSupportUpperBound()
inverseCumulativeProbability(1)
. In other words, this
method must return
inf {x in R | P(X <= x) = 1}
.
p = 0
.public boolean isSupportConnected()
true
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