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JMSLTM Numerical Library 6.1 | |||||||
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java.lang.Object com.imsl.stat.NormalityTest
public class NormalityTest
Performs a test for normality.
Three methods are provided for testing normality: the Shapiro-Wilk W test, the Lilliefors test, and the chi-squared test.
Shapiro-Wilk W Test
The Shapiro-Wilk W test is thought by D'Agostino and Stevens (1986, p. 406) to be one of the best omnibus tests of normality. The function is based on the approximations and code given by Royston (1982a, b, c). It can be used in samples as large as 2,000 or as small as 3. In the Shapiro and Wilk test, W is given by
where is the i-th largest order statistic and x is the sample mean. Royston (1982) gives approximations and tabled values that can be used to compute the coefficients , and obtains the significance level of the W statistic.
Lilliefors Test
This function computes Lilliefors test and its p-values for a normal distribution in which both the mean and variance are estimated. The one-sample, two-sided Kolmogorov-Smirnov statistic D is first computed. The p-values are then computed using an analytic approximation given by Dallal and Wilkinson (1986). Because Dallal and Wilkinson give approximations in the range (0.01, 0.10) if the computed probability of a greater D is less than 0.01, the p-value is set to 0.50. Note that because parameters are estimated, p-values in Lilliefors test are not the same as in the Kolmogorov-Smirnov Test.
Observations should not be tied. If tied observations are found, an informational message is printed. A general reference for the Lilliefors test is Conover (1980). The original reference for the test for normality is Lilliefors (1967).
Chi-Squared Test
This function computes the chi-squared statistic, its p-value, and the degrees of freedom of the test. Argument n finds the number of intervals into which the observations are to be divided. The intervals are equiprobable except for the first and last interval, which are infinite in length.
If more flexibility is desired for the specification of intervals, the
same test can be performed with class ChiSquaredTest
.
Nested Class Summary | |
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static class |
NormalityTest.NoVariationInputException
There is no variation in the input data. |
Constructor Summary | |
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NormalityTest(double[] x)
Constructor for NormalityTest . |
Method Summary | |
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double |
ChiSquaredTest(int n)
Performs the chi-squared goodness-of-fit test. |
double |
getChiSquared()
Returns the chi-square statistic for the chi-squared goodness-of-fit test. |
double |
getDegreesOfFreedom()
Returns the degrees of freedom for the chi-squared goodness-of-fit test. |
double |
getMaxDifference()
Returns the maximum absolute difference between the empirical and the theoretical distributions for the Lilliefors test. |
double |
getShapiroWilkW()
Returns the Shapiro-Wilk W statistic for the Shapiro-Wilk W test. |
double |
LillieforsTest()
Performs the Lilliefors test. |
double |
ShapiroWilkWTest()
Performs the Shapiro-Wilk W test. |
Methods inherited from class java.lang.Object |
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clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
Constructor Detail |
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public NormalityTest(double[] x)
NormalityTest
.
x
- A double
array containing the observations.
x.length
must be in the range from 3 to 2,000,
inclusive, for the Shapiro-Wilk W test and must be greater
than 4 for the Lilliefors test.Method Detail |
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public final double ChiSquaredTest(int n) throws NormalityTest.NoVariationInputException, InverseCdf.DidNotConvergeException
n
- An int
scalar containing the number of cells
into which the observations are to be tallied.
double
scalar containing the p-value for the
chi-squared goodness-of-fit test.
NormalityTest.NoVariationInputException
- is thrown if there is
no variation in the input data.
DidNotConvergeException
- is thrown if the iteration
did not converge.
InverseCdf.DidNotConvergeException
ChiSquaredTest
public double getChiSquared()
double
scalar containing the chi-square
statistic. Returns Double.NaN
for other tests.public double getDegreesOfFreedom()
double
scalar containing the degrees of
freedom. Returns Double.NaN
for other tests.public double getMaxDifference()
double
scalar containing the maximum absolute
difference between the empirical and the theoretical
distributions. Returns Double.NaN
for other tests.public double getShapiroWilkW()
double
scalar containing the Shapiro-Wilk W
statistic. Returns Double.NaN
for other tests.public final double LillieforsTest() throws NormalityTest.NoVariationInputException, InverseCdf.DidNotConvergeException
double
scalar containing the p-value for the
Lilliefors test. Probabilities less than 0.01 are reported
as 0.01, and probabilities greater than 0.10 for the normal
distribution are reported as 0.5. Otherwise, an approximate
probability is computed.
NormalityTest.NoVariationInputException
- is thrown if there is
no variation in the input data.
DidNotConvergeException
- is thrown if the iteration
did not converge.
InverseCdf.DidNotConvergeException
public final double ShapiroWilkWTest() throws NormalityTest.NoVariationInputException, InverseCdf.DidNotConvergeException
double
scalar containing the p-value for the
Shapiro-Wilk W test.
NormalityTest.NoVariationInputException
- is thrown if there is
no variation in the input data.
DidNotConvergeException
- is thrown if the iteration
did not converge.
InverseCdf.DidNotConvergeException
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JMSLTM Numerical Library 6.1 | |||||||
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