This function provides three kinds of Anderson-Darling Normality Tests
(Anderson and Darling, 1952).
Usage
adtest(x, R = 1000, locscatt = "standard")
Arguments
x
either a numeric vector, or a data.frame, or a matrix
R
Number of Monte Carlo simulations to obtain p-values
locscatt
standard for classical estimates of mean and (co)variance. robust for
robust estimates using covMcd() from package robustbase
Value
statisticThe result of the corresponding test statistic
methodThe chosen method (univariate, angle or radius)
p.valuep-value
Details
Three version of the test are implemented (univariate, angle and radius test) and it depends on
the data which test is chosen.
If the data is univariate the univariate Anderson-Darling test for normality is applied.
If the data is bivariate the angle Anderson-Darling test for normality is performed out.
If the data is multivariate the radius Anderson-Darling test for normality is used.
If locscatt is equal to robust then within the procedure, robust estimates
of mean and covariance are provided using covMcd() from package robustbase.
To provide estimates for the corresponding p-values, i.e. to compute the probability of obtaining
a result at least as extreme as the one that was actually observed under the null
hypothesis, we use Monte Carlo techniques where we check how often the statistic of
the underlying data is more extreme than statistics obtained from simulated normal distributed data
with the same (column-wise-) mean(s) and (co)variance.
References
Anderson, T.W. and Darling, D.A. (1952)
Asymptotic theory of certain goodness-of-fit criteria based
on stochastic processes. Annals of Mathematical Statistics, 23
193-212.