Hotelling's T-squared distribution
In statistics Hotelling's T-squared distribution (T2) is a multivariate distribution proportional to the F-distribution and arises importantly as the distribution of a set of statistics which are natural generalizations of the statistics underlying Student's t-distribution. Hotelling's t-squared statistic (t2) is a generalization of Student's t-statistic that is used in multivariate hypothesis testing.
The distribution arises in multivariate statistics in undertaking tests of the differences between the (multivariate) means of different populations, where tests for univariate problems would make use of a t-test. The distribution is named for Harold Hotelling, who developed it as a generalization of Student's t-distribution.
If the vector pd1 is Gaussian multivariate-distributed with zero mean and unit covariance matrix N(p01,pIp) and pMp is a p x p matrix with unit scale matrix and m degrees of freedom with a Wishart distribution W(pIp,m), then the Quadratic form m(1dT p M−1pd1) has a Hotelling T2(p,m) distribution with dimensionality parameter p and m degrees of freedom.
where is the F-distribution with parameters p and m−p+1.
The definition of this multivariate sample statistic follows after it is motivated using a simpler problem.
be n independent identically distributed (iid) random variables, which may be represented as column vectors of real numbers. Define
to be the sample mean with covariance . It can be shown that
where is the chi-squared distribution with p degrees of freedom.
The covariance matrix used above is often unknown. Here we use instead the sample covariance:
where we denote transpose by an apostrophe. It can be shown that is a positive (semi) definite matrix and follows a p-variate Wishart distribution with n−1 degrees of freedom. The sample covariance matrix of the mean reads .
Also, from the distribution,
Then, use the quantity on the left hand side to evaluate the p-value corresponding to the sample, which comes from the F-distribution.
as the sample means, and
as the respective sample covariance matrices. Then
is the unbiased pooled covariance matrix estimate (an extension of pooled variance).
Finally, the Hotelling's two-sample t-squared statistic is
where is the difference vector between the population means.
In the two-variable case, the formula simplifies nicely allowing appreciation of how the correlation, , between the variables affects . If we define
Thus, if the differences in the two rows of the vector are of the same sign, in general, becomes smaller as becomes more positive. If the differences are of opposite sign becomes larger as becomes more positive.
A univariate special case can be found in Welch's t-test.
More robust and powerful tests than Hotelling's two-sample test have been proposed in the literature, see for example the interpoint distance based tests which can be applied also when the number of variables is comparable with, or even larger than, the number of subjects.
- Student's t-test in univariate statistics
- Student's t-distribution in univariate probability theory
- Multivariate Student distribution
- F-distribution (commonly tabulated or available in software libraries, and hence used for testing the T-squared statistic using the relationship given above)
- Wilks's lambda distribution (in multivariate statistics, Wilks's Λ is to Hotelling's T2 as Snedecor's F is to Student's t in univariate statistics)
- Hotelling, H. (1931). "The generalization of Student's ratio". Annals of Mathematical Statistics. 2 (3): 360–378. doi:10.1214/aoms/1177732979.
- Eric W. Weisstein, MathWorld
- Mardia, K. V.; Kent, J. T.; Bibby, J. M. (1979). Multivariate Analysis. Academic Press. ISBN 978-0-12-471250-8.
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- Marozzi, M. (2016). "Multivariate tests based on interpoint distances with application to magnetic resonance imaging". Statistical Methods in Medical Research. 25 (6): 2593–2610. doi:10.1177/0962280214529104. PMID 24740998.
- Marozzi, M. (2015). "Multivariate multidistance tests for high-dimensional low sample size case-control studies". Statistics in Medicine. 34 (9): 1511–1526. doi:10.1002/sim.6418. PMID 25630579.