Class TTestImpl
- java.lang.Object
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- org.apache.commons.math.stat.inference.TTestImpl
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- All Implemented Interfaces:
TTest
public class TTestImpl extends java.lang.Object implements TTest
Implements t-test statistics defined in theTTest
interface.Uses commons-math
TDistributionImpl
implementation to estimate exact p-values.- Version:
- $Revision: 1042336 $ $Date: 2010-12-05 13:40:48 +0100 (dim. 05 déc. 2010) $
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Constructor Summary
Constructors Constructor Description TTestImpl()
Default constructor.TTestImpl(TDistribution t)
Deprecated.in 2.2 (to be removed in 3.0).
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Method Summary
All Methods Instance Methods Concrete Methods Deprecated Methods Modifier and Type Method Description protected double
df(double v1, double v2, double n1, double n2)
Computes approximate degrees of freedom for 2-sample t-test.double
homoscedasticT(double[] sample1, double[] sample2)
Computes a 2-sample t statistic, under the hypothesis of equal subpopulation variances.protected double
homoscedasticT(double m1, double m2, double v1, double v2, double n1, double n2)
Computes t test statistic for 2-sample t-test under the hypothesis of equal subpopulation variances.double
homoscedasticT(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2)
Computes a 2-sample t statistic, comparing the means of the datasets described by twoStatisticalSummary
instances, under the assumption of equal subpopulation variances.double
homoscedasticTTest(double[] sample1, double[] sample2)
Returns the observed significance level, or p-value, associated with a two-sample, two-tailed t-test comparing the means of the input arrays, under the assumption that the two samples are drawn from subpopulations with equal variances.boolean
homoscedasticTTest(double[] sample1, double[] sample2, double alpha)
Performs a two-sided t-test evaluating the null hypothesis thatsample1
andsample2
are drawn from populations with the same mean, with significance levelalpha
, assuming that the subpopulation variances are equal.protected double
homoscedasticTTest(double m1, double m2, double v1, double v2, double n1, double n2)
Computes p-value for 2-sided, 2-sample t-test, under the assumption of equal subpopulation variances.double
homoscedasticTTest(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2)
Returns the observed significance level, or p-value, associated with a two-sample, two-tailed t-test comparing the means of the datasets described by two StatisticalSummary instances, under the hypothesis of equal subpopulation variances.double
pairedT(double[] sample1, double[] sample2)
Computes a paired, 2-sample t-statistic based on the data in the input arrays.double
pairedTTest(double[] sample1, double[] sample2)
Returns the observed significance level, or p-value, associated with a paired, two-sample, two-tailed t-test based on the data in the input arrays.boolean
pairedTTest(double[] sample1, double[] sample2, double alpha)
Performs a paired t-test evaluating the null hypothesis that the mean of the paired differences betweensample1
andsample2
is 0 in favor of the two-sided alternative that the mean paired difference is not equal to 0, with significance levelalpha
.void
setDistribution(TDistribution value)
Deprecated.in 2.2 (to be removed in 3.0).double
t(double[] sample1, double[] sample2)
Computes a 2-sample t statistic, without the hypothesis of equal subpopulation variances.double
t(double mu, double[] observed)
Computes a t statistic given observed values and a comparison constant.protected double
t(double m, double mu, double v, double n)
Computes t test statistic for 1-sample t-test.protected double
t(double m1, double m2, double v1, double v2, double n1, double n2)
Computes t test statistic for 2-sample t-test.double
t(double mu, StatisticalSummary sampleStats)
double
t(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2)
Computes a 2-sample t statistic , comparing the means of the datasets described by twoStatisticalSummary
instances, without the assumption of equal subpopulation variances.double
tTest(double[] sample1, double[] sample2)
Returns the observed significance level, or p-value, associated with a two-sample, two-tailed t-test comparing the means of the input arrays.boolean
tTest(double[] sample1, double[] sample2, double alpha)
Performs a two-sided t-test evaluating the null hypothesis thatsample1
andsample2
are drawn from populations with the same mean, with significance levelalpha
.double
tTest(double mu, double[] sample)
Returns the observed significance level, or p-value, associated with a one-sample, two-tailed t-test comparing the mean of the input array with the constantmu
.boolean
tTest(double mu, double[] sample, double alpha)
Performs a two-sided t-test evaluating the null hypothesis that the mean of the population from whichsample
is drawn equalsmu
.protected double
tTest(double m, double mu, double v, double n)
Computes p-value for 2-sided, 1-sample t-test.protected double
tTest(double m1, double m2, double v1, double v2, double n1, double n2)
Computes p-value for 2-sided, 2-sample t-test.double
tTest(double mu, StatisticalSummary sampleStats)
Returns the observed significance level, or p-value, associated with a one-sample, two-tailed t-test comparing the mean of the dataset described bysampleStats
with the constantmu
.boolean
tTest(double mu, StatisticalSummary sampleStats, double alpha)
Performs a two-sided t-test evaluating the null hypothesis that the mean of the population from which the dataset described bystats
is drawn equalsmu
.double
tTest(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2)
Returns the observed significance level, or p-value, associated with a two-sample, two-tailed t-test comparing the means of the datasets described by two StatisticalSummary instances.boolean
tTest(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2, double alpha)
Performs a two-sided t-test evaluating the null hypothesis thatsampleStats1
andsampleStats2
describe datasets drawn from populations with the same mean, with significance levelalpha
.
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Constructor Detail
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TTestImpl
public TTestImpl()
Default constructor.
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TTestImpl
@Deprecated public TTestImpl(TDistribution t)
Deprecated.in 2.2 (to be removed in 3.0).Create a test instance using the given distribution for computing inference statistics.- Parameters:
t
- distribution used to compute inference statistics.- Since:
- 1.2
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Method Detail
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pairedT
public double pairedT(double[] sample1, double[] sample2) throws java.lang.IllegalArgumentException, MathException
Computes a paired, 2-sample t-statistic based on the data in the input arrays. The t-statistic returned is equivalent to what would be returned by computing the one-sample t-statistict(double, double[])
, withmu = 0
and the sample array consisting of the (signed) differences between corresponding entries insample1
andsample2.
Preconditions:
- The input arrays must have the same length and their common length must be at least 2.
- Specified by:
pairedT
in interfaceTTest
- Parameters:
sample1
- array of sample data valuessample2
- array of sample data values- Returns:
- t statistic
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if the statistic can not be computed do to a convergence or other numerical error.
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pairedTTest
public double pairedTTest(double[] sample1, double[] sample2) throws java.lang.IllegalArgumentException, MathException
Returns the observed significance level, or p-value, associated with a paired, two-sample, two-tailed t-test based on the data in the input arrays.The number returned is the smallest significance level at which one can reject the null hypothesis that the mean of the paired differences is 0 in favor of the two-sided alternative that the mean paired difference is not equal to 0. For a one-sided test, divide the returned value by 2.
This test is equivalent to a one-sample t-test computed using
tTest(double, double[])
withmu = 0
and the sample array consisting of the signed differences between corresponding elements ofsample1
andsample2.
Usage Note:
The validity of the p-value depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The input array lengths must be the same and their common length must be at least 2.
- Specified by:
pairedTTest
in interfaceTTest
- Parameters:
sample1
- array of sample data valuessample2
- array of sample data values- Returns:
- p-value for t-test
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error occurs computing the p-value
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pairedTTest
public boolean pairedTTest(double[] sample1, double[] sample2, double alpha) throws java.lang.IllegalArgumentException, MathException
Performs a paired t-test evaluating the null hypothesis that the mean of the paired differences betweensample1
andsample2
is 0 in favor of the two-sided alternative that the mean paired difference is not equal to 0, with significance levelalpha
.Returns
true
iff the null hypothesis can be rejected with confidence1 - alpha
. To perform a 1-sided test, usealpha * 2
Usage Note:
The validity of the test depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The input array lengths must be the same and their common length must be at least 2.
-
0 < alpha < 0.5
- Specified by:
pairedTTest
in interfaceTTest
- Parameters:
sample1
- array of sample data valuessample2
- array of sample data valuesalpha
- significance level of the test- Returns:
- true if the null hypothesis can be rejected with confidence 1 - alpha
- Throws:
java.lang.IllegalArgumentException
- if the preconditions are not metMathException
- if an error occurs performing the test
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t
public double t(double mu, double[] observed) throws java.lang.IllegalArgumentException
Computes a t statistic given observed values and a comparison constant.This statistic can be used to perform a one sample t-test for the mean.
Preconditions:
- The observed array length must be at least 2.
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t
public double t(double mu, StatisticalSummary sampleStats) throws java.lang.IllegalArgumentException
Computes a t statistic to use in comparing the mean of the dataset described bysampleStats
tomu
.This statistic can be used to perform a one sample t-test for the mean.
Preconditions:
observed.getN() > = 2
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homoscedasticT
public double homoscedasticT(double[] sample1, double[] sample2) throws java.lang.IllegalArgumentException
Computes a 2-sample t statistic, under the hypothesis of equal subpopulation variances. To compute a t-statistic without the equal variances hypothesis, uset(double[], double[])
.This statistic can be used to perform a (homoscedastic) two-sample t-test to compare sample means.
The t-statisitc is
t = (m1 - m2) / (sqrt(1/n1 +1/n2) sqrt(var))
where
n1
is the size of first sample;n2
is the size of second sample;m1
is the mean of first sample;m2
is the mean of second sample andvar
is the pooled variance estimate:var = sqrt(((n1 - 1)var1 + (n2 - 1)var2) / ((n1-1) + (n2-1)))
with
var1
the variance of the first sample andvar2
the variance of the second sample.Preconditions:
- The observed array lengths must both be at least 2.
- Specified by:
homoscedasticT
in interfaceTTest
- Parameters:
sample1
- array of sample data valuessample2
- array of sample data values- Returns:
- t statistic
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not met
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t
public double t(double[] sample1, double[] sample2) throws java.lang.IllegalArgumentException
Computes a 2-sample t statistic, without the hypothesis of equal subpopulation variances. To compute a t-statistic assuming equal variances, usehomoscedasticT(double[], double[])
.This statistic can be used to perform a two-sample t-test to compare sample means.
The t-statisitc is
t = (m1 - m2) / sqrt(var1/n1 + var2/n2)
where
n1
is the size of the first samplen2
is the size of the second sample;m1
is the mean of the first sample;m2
is the mean of the second sample;var1
is the variance of the first sample;var2
is the variance of the second sample;Preconditions:
- The observed array lengths must both be at least 2.
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t
public double t(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2) throws java.lang.IllegalArgumentException
Computes a 2-sample t statistic , comparing the means of the datasets described by twoStatisticalSummary
instances, without the assumption of equal subpopulation variances. UsehomoscedasticT(StatisticalSummary, StatisticalSummary)
to compute a t-statistic under the equal variances assumption.This statistic can be used to perform a two-sample t-test to compare sample means.
The returned t-statisitc is
t = (m1 - m2) / sqrt(var1/n1 + var2/n2)
where
n1
is the size of the first sample;n2
is the size of the second sample;m1
is the mean of the first sample;m2
is the mean of the second samplevar1
is the variance of the first sample;var2
is the variance of the second samplePreconditions:
- The datasets described by the two Univariates must each contain at least 2 observations.
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homoscedasticT
public double homoscedasticT(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2) throws java.lang.IllegalArgumentException
Computes a 2-sample t statistic, comparing the means of the datasets described by twoStatisticalSummary
instances, under the assumption of equal subpopulation variances. To compute a t-statistic without the equal variances assumption, uset(StatisticalSummary, StatisticalSummary)
.This statistic can be used to perform a (homoscedastic) two-sample t-test to compare sample means.
The t-statisitc returned is
t = (m1 - m2) / (sqrt(1/n1 +1/n2) sqrt(var))
where
n1
is the size of first sample;n2
is the size of second sample;m1
is the mean of first sample;m2
is the mean of second sample andvar
is the pooled variance estimate:var = sqrt(((n1 - 1)var1 + (n2 - 1)var2) / ((n1-1) + (n2-1)))
with
var1
the variance of the first sample andvar2
the variance of the second sample.Preconditions:
- The datasets described by the two Univariates must each contain at least 2 observations.
- Specified by:
homoscedasticT
in interfaceTTest
- Parameters:
sampleStats1
- StatisticalSummary describing data from the first samplesampleStats2
- StatisticalSummary describing data from the second sample- Returns:
- t statistic
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not met
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tTest
public double tTest(double mu, double[] sample) throws java.lang.IllegalArgumentException, MathException
Returns the observed significance level, or p-value, associated with a one-sample, two-tailed t-test comparing the mean of the input array with the constantmu
.The number returned is the smallest significance level at which one can reject the null hypothesis that the mean equals
mu
in favor of the two-sided alternative that the mean is different frommu
. For a one-sided test, divide the returned value by 2.Usage Note:
The validity of the test depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The observed array length must be at least 2.
- Specified by:
tTest
in interfaceTTest
- Parameters:
mu
- constant value to compare sample mean againstsample
- array of sample data values- Returns:
- p-value
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error occurs computing the p-value
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tTest
public boolean tTest(double mu, double[] sample, double alpha) throws java.lang.IllegalArgumentException, MathException
Performs a two-sided t-test evaluating the null hypothesis that the mean of the population from whichsample
is drawn equalsmu
.Returns
true
iff the null hypothesis can be rejected with confidence1 - alpha
. To perform a 1-sided test, usealpha * 2
Examples:
- To test the (2-sided) hypothesis
sample mean = mu
at the 95% level, usetTest(mu, sample, 0.05)
- To test the (one-sided) hypothesis
sample mean < mu
at the 99% level, first verify that the measured sample mean is less thanmu
and then usetTest(mu, sample, 0.02)
Usage Note:
The validity of the test depends on the assumptions of the one-sample parametric t-test procedure, as discussed herePreconditions:
- The observed array length must be at least 2.
- Specified by:
tTest
in interfaceTTest
- Parameters:
mu
- constant value to compare sample mean againstsample
- array of sample data valuesalpha
- significance level of the test- Returns:
- p-value
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error computing the p-value
- To test the (2-sided) hypothesis
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tTest
public double tTest(double mu, StatisticalSummary sampleStats) throws java.lang.IllegalArgumentException, MathException
Returns the observed significance level, or p-value, associated with a one-sample, two-tailed t-test comparing the mean of the dataset described bysampleStats
with the constantmu
.The number returned is the smallest significance level at which one can reject the null hypothesis that the mean equals
mu
in favor of the two-sided alternative that the mean is different frommu
. For a one-sided test, divide the returned value by 2.Usage Note:
The validity of the test depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The sample must contain at least 2 observations.
- Specified by:
tTest
in interfaceTTest
- Parameters:
mu
- constant value to compare sample mean againstsampleStats
- StatisticalSummary describing sample data- Returns:
- p-value
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error occurs computing the p-value
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tTest
public boolean tTest(double mu, StatisticalSummary sampleStats, double alpha) throws java.lang.IllegalArgumentException, MathException
Performs a two-sided t-test evaluating the null hypothesis that the mean of the population from which the dataset described bystats
is drawn equalsmu
.Returns
true
iff the null hypothesis can be rejected with confidence1 - alpha
. To perform a 1-sided test, usealpha * 2.
Examples:
- To test the (2-sided) hypothesis
sample mean = mu
at the 95% level, usetTest(mu, sampleStats, 0.05)
- To test the (one-sided) hypothesis
sample mean < mu
at the 99% level, first verify that the measured sample mean is less thanmu
and then usetTest(mu, sampleStats, 0.02)
Usage Note:
The validity of the test depends on the assumptions of the one-sample parametric t-test procedure, as discussed herePreconditions:
- The sample must include at least 2 observations.
- Specified by:
tTest
in interfaceTTest
- Parameters:
mu
- constant value to compare sample mean againstsampleStats
- StatisticalSummary describing sample data valuesalpha
- significance level of the test- Returns:
- p-value
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error occurs computing the p-value
- To test the (2-sided) hypothesis
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tTest
public double tTest(double[] sample1, double[] sample2) throws java.lang.IllegalArgumentException, MathException
Returns the observed significance level, or p-value, associated with a two-sample, two-tailed t-test comparing the means of the input arrays.The number returned is the smallest significance level at which one can reject the null hypothesis that the two means are equal in favor of the two-sided alternative that they are different. For a one-sided test, divide the returned value by 2.
The test does not assume that the underlying popuation variances are equal and it uses approximated degrees of freedom computed from the sample data to compute the p-value. The t-statistic used is as defined in
t(double[], double[])
and the Welch-Satterthwaite approximation to the degrees of freedom is used, as described here. To perform the test under the assumption of equal subpopulation variances, usehomoscedasticTTest(double[], double[])
.Usage Note:
The validity of the p-value depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The observed array lengths must both be at least 2.
- Specified by:
tTest
in interfaceTTest
- Parameters:
sample1
- array of sample data valuessample2
- array of sample data values- Returns:
- p-value for t-test
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error occurs computing the p-value
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homoscedasticTTest
public double homoscedasticTTest(double[] sample1, double[] sample2) throws java.lang.IllegalArgumentException, MathException
Returns the observed significance level, or p-value, associated with a two-sample, two-tailed t-test comparing the means of the input arrays, under the assumption that the two samples are drawn from subpopulations with equal variances. To perform the test without the equal variances assumption, usetTest(double[], double[])
.The number returned is the smallest significance level at which one can reject the null hypothesis that the two means are equal in favor of the two-sided alternative that they are different. For a one-sided test, divide the returned value by 2.
A pooled variance estimate is used to compute the t-statistic. See
homoscedasticT(double[], double[])
. The sum of the sample sizes minus 2 is used as the degrees of freedom.Usage Note:
The validity of the p-value depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The observed array lengths must both be at least 2.
- Specified by:
homoscedasticTTest
in interfaceTTest
- Parameters:
sample1
- array of sample data valuessample2
- array of sample data values- Returns:
- p-value for t-test
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error occurs computing the p-value
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tTest
public boolean tTest(double[] sample1, double[] sample2, double alpha) throws java.lang.IllegalArgumentException, MathException
Performs a two-sided t-test evaluating the null hypothesis thatsample1
andsample2
are drawn from populations with the same mean, with significance levelalpha
. This test does not assume that the subpopulation variances are equal. To perform the test assuming equal variances, usehomoscedasticTTest(double[], double[], double)
.Returns
true
iff the null hypothesis that the means are equal can be rejected with confidence1 - alpha
. To perform a 1-sided test, usealpha / 2
See
t(double[], double[])
for the formula used to compute the t-statistic. Degrees of freedom are approximated using the Welch-Satterthwaite approximation.Examples:
- To test the (2-sided) hypothesis
mean 1 = mean 2
at the 95% level, usetTest(sample1, sample2, 0.05).
- To test the (one-sided) hypothesis
mean 1 < mean 2
at the 99% level, first verify that the measured mean ofsample 1
is less than the mean ofsample 2
and then usetTest(sample1, sample2, 0.02)
Usage Note:
The validity of the test depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The observed array lengths must both be at least 2.
-
0 < alpha < 0.5
- Specified by:
tTest
in interfaceTTest
- Parameters:
sample1
- array of sample data valuessample2
- array of sample data valuesalpha
- significance level of the test- Returns:
- true if the null hypothesis can be rejected with confidence 1 - alpha
- Throws:
java.lang.IllegalArgumentException
- if the preconditions are not metMathException
- if an error occurs performing the test
- To test the (2-sided) hypothesis
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homoscedasticTTest
public boolean homoscedasticTTest(double[] sample1, double[] sample2, double alpha) throws java.lang.IllegalArgumentException, MathException
Performs a two-sided t-test evaluating the null hypothesis thatsample1
andsample2
are drawn from populations with the same mean, with significance levelalpha
, assuming that the subpopulation variances are equal. UsetTest(double[], double[], double)
to perform the test without the assumption of equal variances.Returns
true
iff the null hypothesis that the means are equal can be rejected with confidence1 - alpha
. To perform a 1-sided test, usealpha * 2.
To perform the test without the assumption of equal subpopulation variances, usetTest(double[], double[], double)
.A pooled variance estimate is used to compute the t-statistic. See
t(double[], double[])
for the formula. The sum of the sample sizes minus 2 is used as the degrees of freedom.Examples:
- To test the (2-sided) hypothesis
mean 1 = mean 2
at the 95% level, usetTest(sample1, sample2, 0.05).
- To test the (one-sided) hypothesis
mean 1 < mean 2,
at the 99% level, first verify that the measured mean ofsample 1
is less than the mean ofsample 2
and then usetTest(sample1, sample2, 0.02)
Usage Note:
The validity of the test depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The observed array lengths must both be at least 2.
-
0 < alpha < 0.5
- Specified by:
homoscedasticTTest
in interfaceTTest
- Parameters:
sample1
- array of sample data valuessample2
- array of sample data valuesalpha
- significance level of the test- Returns:
- true if the null hypothesis can be rejected with confidence 1 - alpha
- Throws:
java.lang.IllegalArgumentException
- if the preconditions are not metMathException
- if an error occurs performing the test
- To test the (2-sided) hypothesis
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tTest
public double tTest(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2) throws java.lang.IllegalArgumentException, MathException
Returns the observed significance level, or p-value, associated with a two-sample, two-tailed t-test comparing the means of the datasets described by two StatisticalSummary instances.The number returned is the smallest significance level at which one can reject the null hypothesis that the two means are equal in favor of the two-sided alternative that they are different. For a one-sided test, divide the returned value by 2.
The test does not assume that the underlying popuation variances are equal and it uses approximated degrees of freedom computed from the sample data to compute the p-value. To perform the test assuming equal variances, use
homoscedasticTTest(StatisticalSummary, StatisticalSummary)
.Usage Note:
The validity of the p-value depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The datasets described by the two Univariates must each contain at least 2 observations.
- Specified by:
tTest
in interfaceTTest
- Parameters:
sampleStats1
- StatisticalSummary describing data from the first samplesampleStats2
- StatisticalSummary describing data from the second sample- Returns:
- p-value for t-test
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error occurs computing the p-value
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homoscedasticTTest
public double homoscedasticTTest(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2) throws java.lang.IllegalArgumentException, MathException
Returns the observed significance level, or p-value, associated with a two-sample, two-tailed t-test comparing the means of the datasets described by two StatisticalSummary instances, under the hypothesis of equal subpopulation variances. To perform a test without the equal variances assumption, usetTest(StatisticalSummary, StatisticalSummary)
.The number returned is the smallest significance level at which one can reject the null hypothesis that the two means are equal in favor of the two-sided alternative that they are different. For a one-sided test, divide the returned value by 2.
See
homoscedasticT(double[], double[])
for the formula used to compute the t-statistic. The sum of the sample sizes minus 2 is used as the degrees of freedom.Usage Note:
The validity of the p-value depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The datasets described by the two Univariates must each contain at least 2 observations.
- Specified by:
homoscedasticTTest
in interfaceTTest
- Parameters:
sampleStats1
- StatisticalSummary describing data from the first samplesampleStats2
- StatisticalSummary describing data from the second sample- Returns:
- p-value for t-test
- Throws:
java.lang.IllegalArgumentException
- if the precondition is not metMathException
- if an error occurs computing the p-value
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tTest
public boolean tTest(StatisticalSummary sampleStats1, StatisticalSummary sampleStats2, double alpha) throws java.lang.IllegalArgumentException, MathException
Performs a two-sided t-test evaluating the null hypothesis thatsampleStats1
andsampleStats2
describe datasets drawn from populations with the same mean, with significance levelalpha
. This test does not assume that the subpopulation variances are equal. To perform the test under the equal variances assumption, usehomoscedasticTTest(StatisticalSummary, StatisticalSummary)
.Returns
true
iff the null hypothesis that the means are equal can be rejected with confidence1 - alpha
. To perform a 1-sided test, usealpha * 2
See
t(double[], double[])
for the formula used to compute the t-statistic. Degrees of freedom are approximated using the Welch-Satterthwaite approximation.Examples:
- To test the (2-sided) hypothesis
mean 1 = mean 2
at the 95%, usetTest(sampleStats1, sampleStats2, 0.05)
- To test the (one-sided) hypothesis
mean 1 < mean 2
at the 99% level, first verify that the measured mean ofsample 1
is less than the mean ofsample 2
and then usetTest(sampleStats1, sampleStats2, 0.02)
Usage Note:
The validity of the test depends on the assumptions of the parametric t-test procedure, as discussed herePreconditions:
- The datasets described by the two Univariates must each contain at least 2 observations.
-
0 < alpha < 0.5
- Specified by:
tTest
in interfaceTTest
- Parameters:
sampleStats1
- StatisticalSummary describing sample data valuessampleStats2
- StatisticalSummary describing sample data valuesalpha
- significance level of the test- Returns:
- true if the null hypothesis can be rejected with confidence 1 - alpha
- Throws:
java.lang.IllegalArgumentException
- if the preconditions are not metMathException
- if an error occurs performing the test
- To test the (2-sided) hypothesis
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df
protected double df(double v1, double v2, double n1, double n2)
Computes approximate degrees of freedom for 2-sample t-test.- Parameters:
v1
- first sample variancev2
- second sample variancen1
- first sample nn2
- second sample n- Returns:
- approximate degrees of freedom
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t
protected double t(double m, double mu, double v, double n)
Computes t test statistic for 1-sample t-test.- Parameters:
m
- sample meanmu
- constant to test againstv
- sample variancen
- sample n- Returns:
- t test statistic
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t
protected double t(double m1, double m2, double v1, double v2, double n1, double n2)
Computes t test statistic for 2-sample t-test.Does not assume that subpopulation variances are equal.
- Parameters:
m1
- first sample meanm2
- second sample meanv1
- first sample variancev2
- second sample variancen1
- first sample nn2
- second sample n- Returns:
- t test statistic
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homoscedasticT
protected double homoscedasticT(double m1, double m2, double v1, double v2, double n1, double n2)
Computes t test statistic for 2-sample t-test under the hypothesis of equal subpopulation variances.- Parameters:
m1
- first sample meanm2
- second sample meanv1
- first sample variancev2
- second sample variancen1
- first sample nn2
- second sample n- Returns:
- t test statistic
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tTest
protected double tTest(double m, double mu, double v, double n) throws MathException
Computes p-value for 2-sided, 1-sample t-test.- Parameters:
m
- sample meanmu
- constant to test againstv
- sample variancen
- sample n- Returns:
- p-value
- Throws:
MathException
- if an error occurs computing the p-value
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tTest
protected double tTest(double m1, double m2, double v1, double v2, double n1, double n2) throws MathException
Computes p-value for 2-sided, 2-sample t-test.Does not assume subpopulation variances are equal. Degrees of freedom are estimated from the data.
- Parameters:
m1
- first sample meanm2
- second sample meanv1
- first sample variancev2
- second sample variancen1
- first sample nn2
- second sample n- Returns:
- p-value
- Throws:
MathException
- if an error occurs computing the p-value
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homoscedasticTTest
protected double homoscedasticTTest(double m1, double m2, double v1, double v2, double n1, double n2) throws MathException
Computes p-value for 2-sided, 2-sample t-test, under the assumption of equal subpopulation variances.The sum of the sample sizes minus 2 is used as degrees of freedom.
- Parameters:
m1
- first sample meanm2
- second sample meanv1
- first sample variancev2
- second sample variancen1
- first sample nn2
- second sample n- Returns:
- p-value
- Throws:
MathException
- if an error occurs computing the p-value
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setDistribution
@Deprecated public void setDistribution(TDistribution value)
Deprecated.in 2.2 (to be removed in 3.0).Modify the distribution used to compute inference statistics.- Parameters:
value
- the new distribution- Since:
- 1.2
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