gov.sandia.cognition.statistics.distribution
Class GeometricDistribution

java.lang.Object
  extended by gov.sandia.cognition.util.AbstractCloneableSerializable
      extended by gov.sandia.cognition.statistics.AbstractDistribution<NumberType>
          extended by gov.sandia.cognition.statistics.AbstractClosedFormUnivariateDistribution<Number>
              extended by gov.sandia.cognition.statistics.distribution.GeometricDistribution
All Implemented Interfaces:
Vectorizable, ClosedFormComputableDistribution<Number>, ClosedFormDiscreteUnivariateDistribution<Number>, ClosedFormDistribution<Number>, ClosedFormUnivariateDistribution<Number>, ComputableDistribution<Number>, DiscreteDistribution<Number>, Distribution<Number>, DistributionWithMean<Number>, EstimableDistribution<Number,GeometricDistribution>, UnivariateDistribution<Number>, CloneableSerializable, Serializable, Cloneable
Direct Known Subclasses:
GeometricDistribution.CDF, GeometricDistribution.PMF

@PublicationReference(author="Mathworks",
                      title="Geometric Distribution",
                      type=WebPage,
                      year=2010,
                      url="http://www.mathworks.com/access/helpdesk/help/toolbox/stats/brn2ivz-58.html")
public class GeometricDistribution
extends AbstractClosedFormUnivariateDistribution<Number>
implements ClosedFormDiscreteUnivariateDistribution<Number>, EstimableDistribution<Number,GeometricDistribution>

The geometric distribution models the number of successes before the first failure occurs under an independent succession of Bernoulli tests.

Since:
3.0
Author:
Kevin R. Dixon
See Also:
Serialized Form

Nested Class Summary
static class GeometricDistribution.CDF
          CDF of the Geometric distribution
static class GeometricDistribution.MaximumLikelihoodEstimator
          Maximum likelihood estimator of the distribution
static class GeometricDistribution.PMF
          PMF of the Geometric distribution
 
Field Summary
static double DEFAULT_P
          Default p, 0.5.
protected  double p
          Probability of a positive outcome (Bernoulli probability), [0,1]
 
Constructor Summary
GeometricDistribution()
          Creates a new instance of GeometricDistribution
GeometricDistribution(double p)
          Creates a new instance of GeometricDistribution
GeometricDistribution(GeometricDistribution other)
          Copy constructor
 
Method Summary
 GeometricDistribution clone()
          This makes public the clone method on the Object class and removes the exception that it throws.
 void convertFromVector(Vector parameters)
          Converts the object from a Vector of parameters.
 Vector convertToVector()
          Converts the object to a vector.
 GeometricDistribution.CDF getCDF()
          Gets the CDF of a scalar distribution.
 IntegerSpan getDomain()
          Returns an object that allows an iteration through the domain (x-axis, independent variable) of the Distribution
 int getDomainSize()
          Gets the size of the domain.
 GeometricDistribution.MaximumLikelihoodEstimator getEstimator()
          Gets an estimator associated with this distribution.
 Integer getMaxSupport()
          Gets the minimum support (domain or input) of the distribution.
 Double getMean()
          Gets the arithmetic mean, or "first central moment" or "expectation", of the distribution.
 Integer getMinSupport()
          Gets the minimum support (domain or input) of the distribution.
 double getP()
          Getter for p
 GeometricDistribution.PMF getProbabilityFunction()
          Gets the distribution function associated with this Distribution, either the PDF or PMF.
 double getVariance()
          Gets the variance of the distribution.
 ArrayList<Integer> sample(Random random, int numSamples)
          Draws multiple random samples from the distribution.
 void setP(double p)
          Setter for p
 
Methods inherited from class gov.sandia.cognition.statistics.AbstractDistribution
sample
 
Methods inherited from class java.lang.Object
equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
 
Methods inherited from interface gov.sandia.cognition.statistics.Distribution
sample
 

Field Detail

DEFAULT_P

public static final double DEFAULT_P
Default p, 0.5.

See Also:
Constant Field Values

p

protected double p
Probability of a positive outcome (Bernoulli probability), [0,1]

Constructor Detail

GeometricDistribution

public GeometricDistribution()
Creates a new instance of GeometricDistribution


GeometricDistribution

public GeometricDistribution(double p)
Creates a new instance of GeometricDistribution

Parameters:
p - Probability of a positive outcome (Bernoulli probability), [0,1]

GeometricDistribution

public GeometricDistribution(GeometricDistribution other)
Copy constructor

Parameters:
other - GeometricDistribution to copy
Method Detail

clone

public GeometricDistribution clone()
Description copied from class: AbstractCloneableSerializable
This makes public the clone method on the Object class and removes the exception that it throws. Its default behavior is to automatically create a clone of the exact type of object that the clone is called on and to copy all primitives but to keep all references, which means it is a shallow copy. Extensions of this class may want to override this method (but call super.clone() to implement a "smart copy". That is, to target the most common use case for creating a copy of the object. Because of the default behavior being a shallow copy, extending classes only need to handle fields that need to have a deeper copy (or those that need to be reset). Some of the methods in ObjectUtil may be helpful in implementing a custom clone method. Note: The contract of this method is that you must use super.clone() as the basis for your implementation.

Specified by:
clone in interface Vectorizable
Specified by:
clone in interface CloneableSerializable
Overrides:
clone in class AbstractClosedFormUnivariateDistribution<Number>
Returns:
A clone of this object.

getP

public double getP()
Getter for p

Returns:
Probability of a positive outcome (Bernoulli probability), [0,1]

setP

public void setP(double p)
Setter for p

Parameters:
p - Probability of a positive outcome (Bernoulli probability), [0,1]

getMean

public Double getMean()
Description copied from interface: DistributionWithMean
Gets the arithmetic mean, or "first central moment" or "expectation", of the distribution.

Specified by:
getMean in interface DistributionWithMean<Number>
Returns:
Mean of the distribution.

getVariance

public double getVariance()
Description copied from interface: UnivariateDistribution
Gets the variance of the distribution. This is sometimes called the second central moment by more pedantic people, which is equivalent to the square of the standard deviation.

Specified by:
getVariance in interface UnivariateDistribution<Number>
Returns:
Variance of the distribution.

sample

public ArrayList<Integer> sample(Random random,
                                 int numSamples)
Description copied from interface: Distribution
Draws multiple random samples from the distribution. It is generally more efficient to use this multiple-sample method than multiple calls of the single-sample method. (But not always.)

Specified by:
sample in interface Distribution<Number>
Parameters:
random - Random-number generator to use in order to generate random numbers.
numSamples - Number of samples to draw from the distribution.
Returns:
Samples drawn according to this distribution.

convertToVector

public Vector convertToVector()
Description copied from interface: Vectorizable
Converts the object to a vector.

Specified by:
convertToVector in interface Vectorizable
Returns:
The Vector form of the object.

convertFromVector

public void convertFromVector(Vector parameters)
Description copied from interface: Vectorizable
Converts the object from a Vector of parameters.

Specified by:
convertFromVector in interface Vectorizable
Parameters:
parameters - The parameters to incorporate.

getMinSupport

public Integer getMinSupport()
Description copied from interface: UnivariateDistribution
Gets the minimum support (domain or input) of the distribution.

Specified by:
getMinSupport in interface UnivariateDistribution<Number>
Returns:
Minimum support.

getMaxSupport

public Integer getMaxSupport()
Description copied from interface: UnivariateDistribution
Gets the minimum support (domain or input) of the distribution.

Specified by:
getMaxSupport in interface UnivariateDistribution<Number>
Returns:
Minimum support.

getDomain

public IntegerSpan getDomain()
Description copied from interface: DiscreteDistribution
Returns an object that allows an iteration through the domain (x-axis, independent variable) of the Distribution

Specified by:
getDomain in interface DiscreteDistribution<Number>
Returns:
Collection that enumerates each value that the domain can take

getDomainSize

public int getDomainSize()
Description copied from interface: DiscreteDistribution
Gets the size of the domain.

Specified by:
getDomainSize in interface DiscreteDistribution<Number>
Returns:
The size of the domain.

getCDF

public GeometricDistribution.CDF getCDF()
Description copied from interface: UnivariateDistribution
Gets the CDF of a scalar distribution.

Specified by:
getCDF in interface ClosedFormUnivariateDistribution<Number>
Specified by:
getCDF in interface UnivariateDistribution<Number>
Returns:
CDF of the scalar distribution.

getProbabilityFunction

public GeometricDistribution.PMF getProbabilityFunction()
Description copied from interface: ComputableDistribution
Gets the distribution function associated with this Distribution, either the PDF or PMF.

Specified by:
getProbabilityFunction in interface ComputableDistribution<Number>
Specified by:
getProbabilityFunction in interface DiscreteDistribution<Number>
Returns:
Distribution function associated with this Distribution.

getEstimator

public GeometricDistribution.MaximumLikelihoodEstimator getEstimator()
Description copied from interface: EstimableDistribution
Gets an estimator associated with this distribution.

Specified by:
getEstimator in interface EstimableDistribution<Number,GeometricDistribution>
Returns:
A distribution estimator associated for this distribution.