MardiaSkewnessTest
MardiaSkewnessTest[data]
tests whether data follows a MultinormalDistribution using the Mardia skewness test.
MardiaSkewnessTest[data,"property"]
returns the value of "property".
Details and Options
- MardiaSkewnessTest performs the Mardia skewness goodness-of-fit test with null hypothesis that data was drawn from a MultinormalDistribution and alternative hypothesis that it was not.
- By default, a probability value or -value is returned.
- A small -value suggests that it is unlikely that the data is normally distributed.
- The data can be univariate {x1,x2,…} or multivariate {{x1,y1,…},{x2,y2,…},…}.
- The Mardia skewness test effectively compares a multivariate measure of skewness for data to a MultinormalDistribution.
- MardiaSkewnessTest[data,dist,"HypothesisTestData"] returns a HypothesisTestData object htd that can be used to extract additional test results and properties using the form htd["property"].
- MardiaSkewnessTest[data,dist,"property"] can be used to directly give the value of "property".
- Properties related to the reporting of test results include:
-
"DegreesOfFreedom" the degrees of freedom used in a test "PValue" -value "PValueTable" formatted version of "PValue" "ShortTestConclusion" a short description of the conclusion of a test "TestConclusion" a description of the conclusion of a test "TestData" test statistic and -value "TestDataTable" formatted version of "TestData" "TestStatistic" test statistic "TestStatisticTable" formatted "TestStatistic" - The following properties are independent of which test is being performed.
- Properties related to the data distribution include:
-
"FittedDistribution" fitted distribution of data "FittedDistributionParameters" distribution parameters of data - The following options can be given:
-
Method Automatic the method to use for computing -values SignificanceLevel 0.05 cutoff for diagnostics and reporting - For a test for goodness-of-fit, a cutoff is chosen such that is rejected only if . The value of used for the "TestConclusion" and "ShortTestConclusion" properties is controlled by the SignificanceLevel option. By default, is set to 0.05.
- The following methods can be used to compute -values:
-
Automatic correct for small samples up to dimension 5 "Asymptotic" use the asymptotic distribution of the test statistic "MonteCarlo" use Monte Carlo simulation - With the setting Method-> "MonteCarlo", datasets of the same length as the input are generated under using the fitted distribution. The EmpiricalDistribution from MardiaSkewnessTest[si,"TestStatistic"] is then used to estimate the -value.
Examples
open allclose allBasic Examples (3)
Scope (6)
Testing (3)
Perform a Mardia skewness test for multivariate normality:
The -value for the normal data is large compared to the -value for the non-normal data:
Test some data for univariate normality:
Create a HypothesisTestData object for repeated property extraction:
Options (4)
Method (3)
Use Monte Carlo-based methods or a computation formula:
Set the number of samples to use for Monte Carlo-based methods:
The Monte Carlo estimate converges to the true -value with increasing samples:
Set the random seed used in Monte Carlo-based methods:
The seed affects the state of the generator and has some effect on the resulting -value:
Applications (2)
A power curve for the Mardia skewness test:
Visualize the approximate power curve:
Estimate the power of the Mardia skewness test when the underlying distribution is a MultivariateTDistribution, the test size is 0.05, and the sample size is 12:
Measures of petal and sepal dimensions for three varieties of iris were recorded. A multivariate test of means can be used as a quick check that the measures might be useful in discriminating between two similar species but is only valid if the data follows a multivariate normal distribution:
The multivariate skewness of the two species is similar to a multivariate normal distribution:
The multivariate kurtosis should also be checked to confirm normality:
The data appears normal, so TTest is valid:
Properties & Relations (4)
The multivariate test statistic:
Under the test statistic follows a ChiSquareDistribution:
The univariate test statistic:
Under the test statistic follows a ChiSquareDistribution[1]:
Mardia's skewness test can only detect departures from normality in skewness:
The data is clearly not normally distributed:
Decisions should be based on MardiaSkewnessTest and MardiaKurtosisTest:
The Mardia skewness test works with the values only when the input is a TimeSeries:
Possible Issues (1)
Text
Wolfram Research (2010), MardiaSkewnessTest, Wolfram Language function, https://reference.wolfram.com/language/ref/MardiaSkewnessTest.html.
CMS
Wolfram Language. 2010. "MardiaSkewnessTest." Wolfram Language & System Documentation Center. Wolfram Research. https://reference.wolfram.com/language/ref/MardiaSkewnessTest.html.
APA
Wolfram Language. (2010). MardiaSkewnessTest. Wolfram Language & System Documentation Center. Retrieved from https://reference.wolfram.com/language/ref/MardiaSkewnessTest.html