indep-deprecated: Energy-tests of Independence
In energy: E-Statistics: Multivariate Inference via the Energy of Data
indep.test R Documentation
Energy-tests of Independence
Description
Computes a multivariate nonparametric test of independence.
The default method implements the distance covariance test
dcov.test.
Usage
indep.test(x, y, method = c("dcov","mvI"), index = 1, R)
Arguments
x
matrix: first sample, observations in rows
y
matrix: second sample, observations in rows
method
a character string giving the name of the test
index
exponent on Euclidean distances
R
number of replicates
Details
indep.test with the default method = "dcov" computes
the distance
covariance test of independence. index is an exponent on
the Euclidean distances. Valid choices for index are in (0,2],
with default value 1 (Euclidean distance). The arguments are passed
to the dcov.test function. See the help topic dcov.test for
the description and documentation and also see the references below.
indep.test with method = "mvI"
computes the coefficient \mathcal I_n and performs a nonparametric
\mathcal E-test of independence. The arguments are passed to
mvI.test. The
index argument is ignored (index = 1 is applied).
See the help topic mvI.test and also
see the reference (2006) below for details.
The test decision is obtained via
bootstrap, with R replicates.
The sample sizes (number of rows) of the two samples must agree, and
samples must not contain missing values.
These energy tests of independence are based on related theoretical
results, but different test statistics.
The dcov method is faster than mvI method by
approximately a factor of O(n).
Value
indep.test returns a list with class
htest containing
method
description of test
statistic
observed value of the
test statistic n \mathcal V_n^2
or n \mathcal I_n^2
estimate
\mathcal V_n or \mathcal I_n
estimates
a vector [dCov(x,y), dCor(x,y), dVar(x), dVar(y)]
(method dcov)
replicates
replicates of the test statistic
p.value
approximate p-value of the test
data.name
description of data
Note
As of energy-1.1-0,
indep.etest is deprecated and replaced by indep.test, which
has methods for two different energy tests of independence. indep.test applies
the distance covariance test (see dcov.test) by default (method = "dcov").
The original indep.etest applied the independence coefficient
\mathcal I_n, which is now obtained by method = "mvI".
Author(s)
Maria L. Rizzo mrizzo@bgsu.edu and
Gabor J. Szekely
References
Szekely, G.J. and Rizzo, M.L. (2009),
Brownian Distance Covariance,
Annals of Applied Statistics, Vol. 3 No. 4, pp.
1236-1265. (Also see discussion and rejoinder.)
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1214/09-AOAS312")}
Szekely, G.J., Rizzo, M.L., and Bakirov, N.K. (2007),
Measuring and Testing Dependence by Correlation of Distances,
Annals of Statistics, Vol. 35 No. 6, pp. 2769-2794.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1214/009053607000000505")}
Bakirov, N.K., Rizzo, M.L., and Szekely, G.J. (2006), A Multivariate
Nonparametric Test of Independence, Journal of Multivariate Analysis
93/1, 58-80,
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1016/j.jmva.2005.10.005")}
See Also
dcov.test
mvI.test
dcov
mvI
Examples
## independent multivariate data
x <- matrix(rnorm(60), nrow=20, ncol=3)
y <- matrix(rnorm(40), nrow=20, ncol=2)
indep.test(x, y, method = "dcov", R = 99)
indep.test(x, y, method = "mvI", R = 99)
## dependent multivariate data
if (require(MASS)) {
Sigma <- matrix(c(1, .1, 0, 0 , 1, 0, 0 ,.1, 1), 3, 3)
x <- mvrnorm(30, c(0, 0, 0), diag(3))
y <- mvrnorm(30, c(0, 0, 0), Sigma) * x
indep.test(x, y, R = 99) #dcov method
indep.test(x, y, method = "mvI", R = 99)
}
energy documentation built on Sept. 11, 2024, 7:57 p.m.
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| indep.test | R Documentation |
Energy-tests of Independence
Description
Computes a multivariate nonparametric test of independence.
The default method implements the distance covariance test
dcov.test.
Usage
indep.test(x, y, method = c("dcov","mvI"), index = 1, R)
Arguments
x |
matrix: first sample, observations in rows |
y |
matrix: second sample, observations in rows |
method |
a character string giving the name of the test |
index |
exponent on Euclidean distances |
R |
number of replicates |
Details
indep.test with the default method = "dcov" computes
the distance
covariance test of independence. index is an exponent on
the Euclidean distances. Valid choices for index are in (0,2],
with default value 1 (Euclidean distance). The arguments are passed
to the dcov.test function. See the help topic dcov.test for
the description and documentation and also see the references below.
indep.test with method = "mvI"
computes the coefficient \mathcal I_n and performs a nonparametric
\mathcal E-test of independence. The arguments are passed to
mvI.test. The
index argument is ignored (index = 1 is applied).
See the help topic mvI.test and also
see the reference (2006) below for details.
The test decision is obtained via
bootstrap, with R replicates.
The sample sizes (number of rows) of the two samples must agree, and
samples must not contain missing values.
These energy tests of independence are based on related theoretical
results, but different test statistics.
The dcov method is faster than mvI method by
approximately a factor of O(n).
Value
indep.test returns a list with class
htest containing
method |
description of test |
statistic |
observed value of the
test statistic |
estimate |
|
estimates |
a vector [dCov(x,y), dCor(x,y), dVar(x), dVar(y)] (method dcov) |
replicates |
replicates of the test statistic |
p.value |
approximate p-value of the test |
data.name |
description of data |
Note
As of energy-1.1-0,
indep.etest is deprecated and replaced by indep.test, which
has methods for two different energy tests of independence. indep.test applies
the distance covariance test (see dcov.test) by default (method = "dcov").
The original indep.etest applied the independence coefficient
\mathcal I_n, which is now obtained by method = "mvI".
Author(s)
Maria L. Rizzo mrizzo@bgsu.edu and Gabor J. Szekely
References
Szekely, G.J. and Rizzo, M.L. (2009),
Brownian Distance Covariance,
Annals of Applied Statistics, Vol. 3 No. 4, pp.
1236-1265. (Also see discussion and rejoinder.)
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1214/09-AOAS312")}
Szekely, G.J., Rizzo, M.L., and Bakirov, N.K. (2007),
Measuring and Testing Dependence by Correlation of Distances,
Annals of Statistics, Vol. 35 No. 6, pp. 2769-2794.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1214/009053607000000505")}
Bakirov, N.K., Rizzo, M.L., and Szekely, G.J. (2006), A Multivariate
Nonparametric Test of Independence, Journal of Multivariate Analysis
93/1, 58-80,
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1016/j.jmva.2005.10.005")}
See Also
dcov.test
mvI.test
dcov
mvI
Examples
## independent multivariate data
x <- matrix(rnorm(60), nrow=20, ncol=3)
y <- matrix(rnorm(40), nrow=20, ncol=2)
indep.test(x, y, method = "dcov", R = 99)
indep.test(x, y, method = "mvI", R = 99)
## dependent multivariate data
if (require(MASS)) {
Sigma <- matrix(c(1, .1, 0, 0 , 1, 0, 0 ,.1, 1), 3, 3)
x <- mvrnorm(30, c(0, 0, 0), diag(3))
y <- mvrnorm(30, c(0, 0, 0), Sigma) * x
indep.test(x, y, R = 99) #dcov method
indep.test(x, y, method = "mvI", R = 99)
}
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