mADCVtest: Distance covariance test of independence in multivariate time...
In dCovTS: Distance Covariance and Correlation for Time Series Analysis
mADCVtest R Documentation
Distance covariance test of independence in multivariate time series
Description
A test of independence based on auto-distance covariance matrix in multivariate time series proposed by Fokianos a
nd Pitsillou (2017).
Usage
mADCVtest(x, type = c("truncated", "bartlett", "daniell", "QS", "parzen"), p,
b = 0, parallel = FALSE, bootMethod = c("Wild Bootstrap",
"Independent Bootstrap"))
Arguments
x
Multivariate time series.
type
A character string which indicates the smoothing kernel. Possible choices are 'truncated' (the default), 'bartlett',
'daniell', 'QS', 'parzen'.
p
The bandwidth, whose choice is determined by p=cn^{\lambda} for c > 0 and \lambda \in (0,1).
b
The number of bootstrap replicates of the test statistic. It is a positive integer. If b=0 (the default), then no
p-value is returned.
parallel
A logical value. By default, parallel=FALSE. If parallel=TRUE, bootstrap computation is distributed to multiple cores,
which typically is the maximum number of available CPUs and is detecting directly from the function.
bootMethod
A character string indicating the method to use for obtaining the empirical p-value of the test.
Possible choices are "Wild Bootstrap" (the default) and "Independent Bootstrap".
Details
mADCVtest tests whether the vector series are independent and identically distributed (i.i.d). The p-value
of the test is obtained via resampling scheme. Possible choices are the independent wild bootstrap (Dehling and Mikosch, 1994; Shao, 2010;
Leucht and Neumann, 2013) and independent bootstrap, with b replicates. The observed statistic is
\sum_{j=1}^{n-1}(n-j)k^2(j/p)\mbox{tr}\{\hat{V}^{*}(j)\hat{V}(j)\}
where \hat{V}^{*}(\cdot) denotes the complex conjugate matrix of \hat{V}(\cdot) obtained from mADCV, and
\mbox{tr}\{A\} denotes the trace of a matrix A, which is the sum of the diagonal elements of A. k(\cdot)
is a kernel function computed by kernelFun and p is a bandwidth or lag order whose choice is further discussed
in Fokianos and Pitsillou (2017).
Under the null hypothesis of independence and some further assumptions about the kernel function k(\cdot), the standardized
version of the test statistic follows N(0,1) asymptotically and it is consistent. More details of the asymptotic properties
of the statistic can be found in Fokianos and Pitsillou (2017).
mADCFtest performs the same test based on the distance correlation matrix mADCF.
Value
An object of class htest which is a list including:
method
The description of the test.
statistic
The observed value of the test statistic.
replicates
Bootstrap replicates of the test statistic (if b=0 then replicates=NULL).
p.value
The p-value of the test (if b=0 then p.value=NA).
bootMethod
The method followed for computing the p-value of the test.
data.name
The description of the data (data name, kernel type, type, bandwidth, p, and the number of
bootstrap replicates b).
Note
The computation of the test statistic is only based on the biased estimator of auto-distance covariance matrix.
Author(s)
Maria Pitsillou, Michail Tsagris and Konstantinos Fokianos.
References
Edelmann, D, K. Fokianos. and M. Pitsillou. (2019). An Updated Literature Review of Distance Correlation and Its
Applications to Time Series. International Statistical Review, 87, 237-262.
Dehling, H. and T. Mikosch (1994). Random quadratic forms and the bootstrap for U-statistics.
Journal of Multivariate Analysis, 51, 392-413.
Fokianos K. and Pitsillou M. (2018). Testing independence for multivariate time series via the auto-distance correlation matrix.
Biometrika, 105, 337-352.
Fokianos K. and M. Pitsillou (2017). Consistent testing for pairwise dependence in time series.
Technometrics, 159, 262-3270.
Huo, X. and G. J. Szekely. (2016). Fast Computing for Distance Covariance.
Technometrics, 58, 435-447.
Leucht, A. and M. H. Neumann (2013). Dependent wild bootstrap for degenerate U- and V- statistics.
Journal of Multivariate Analysis, 117, 257-280.
Pitsillou M. and Fokianos K. (2016). dCovTS: Distance Covariance/Correlation for Time Series.
R Journal, 8, 324-340.
Shao, X. (2010). The dependent wild bootstrap. Journal of the American Statistical Association, 105, 218-235.
See Also
mADCV, mADCF, mADCFtest
Examples
x <- matrix( rnorm(200), ncol = 2 )
n <- length(x)
c <- 3
lambda <- 0.1
p <- ceiling(c * n^lambda)
mF <- mADCVtest(x, type = "bar", p = p, b = 500, parallel = FALSE)
dCovTS documentation built on Sept. 29, 2023, 1:06 a.m.
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| mADCVtest | R Documentation |
Distance covariance test of independence in multivariate time series
Description
A test of independence based on auto-distance covariance matrix in multivariate time series proposed by Fokianos a nd Pitsillou (2017).
Usage
mADCVtest(x, type = c("truncated", "bartlett", "daniell", "QS", "parzen"), p,
b = 0, parallel = FALSE, bootMethod = c("Wild Bootstrap",
"Independent Bootstrap"))
Arguments
x |
Multivariate time series. |
type |
A character string which indicates the smoothing kernel. Possible choices are 'truncated' (the default), 'bartlett', 'daniell', 'QS', 'parzen'. |
p |
The bandwidth, whose choice is determined by |
b |
The number of bootstrap replicates of the test statistic. It is a positive integer. If b=0 (the default), then no p-value is returned. |
parallel |
A logical value. By default, parallel=FALSE. If parallel=TRUE, bootstrap computation is distributed to multiple cores, which typically is the maximum number of available CPUs and is detecting directly from the function. |
bootMethod |
A character string indicating the method to use for obtaining the empirical p-value of the test. Possible choices are "Wild Bootstrap" (the default) and "Independent Bootstrap". |
Details
mADCVtest tests whether the vector series are independent and identically distributed (i.i.d). The p-value
of the test is obtained via resampling scheme. Possible choices are the independent wild bootstrap (Dehling and Mikosch, 1994; Shao, 2010;
Leucht and Neumann, 2013) and independent bootstrap, with b replicates. The observed statistic is
\sum_{j=1}^{n-1}(n-j)k^2(j/p)\mbox{tr}\{\hat{V}^{*}(j)\hat{V}(j)\}
where \hat{V}^{*}(\cdot) denotes the complex conjugate matrix of \hat{V}(\cdot) obtained from mADCV, and
\mbox{tr}\{A\} denotes the trace of a matrix A, which is the sum of the diagonal elements of A. k(\cdot)
is a kernel function computed by kernelFun and p is a bandwidth or lag order whose choice is further discussed
in Fokianos and Pitsillou (2017).
Under the null hypothesis of independence and some further assumptions about the kernel function k(\cdot), the standardized
version of the test statistic follows N(0,1) asymptotically and it is consistent. More details of the asymptotic properties
of the statistic can be found in Fokianos and Pitsillou (2017).
mADCFtest performs the same test based on the distance correlation matrix mADCF.
Value
An object of class htest which is a list including:
method |
The description of the test. |
statistic |
The observed value of the test statistic. |
replicates |
Bootstrap replicates of the test statistic (if |
p.value |
The p-value of the test (if |
bootMethod |
The method followed for computing the p-value of the test. |
data.name |
The description of the data (data name, kernel type, |
Note
The computation of the test statistic is only based on the biased estimator of auto-distance covariance matrix.
Author(s)
Maria Pitsillou, Michail Tsagris and Konstantinos Fokianos.
References
Edelmann, D, K. Fokianos. and M. Pitsillou. (2019). An Updated Literature Review of Distance Correlation and Its Applications to Time Series. International Statistical Review, 87, 237-262.
Dehling, H. and T. Mikosch (1994). Random quadratic forms and the bootstrap for U-statistics. Journal of Multivariate Analysis, 51, 392-413.
Fokianos K. and Pitsillou M. (2018). Testing independence for multivariate time series via the auto-distance correlation matrix. Biometrika, 105, 337-352.
Fokianos K. and M. Pitsillou (2017). Consistent testing for pairwise dependence in time series. Technometrics, 159, 262-3270.
Huo, X. and G. J. Szekely. (2016). Fast Computing for Distance Covariance. Technometrics, 58, 435-447.
Leucht, A. and M. H. Neumann (2013). Dependent wild bootstrap for degenerate U- and V- statistics. Journal of Multivariate Analysis, 117, 257-280.
Pitsillou M. and Fokianos K. (2016). dCovTS: Distance Covariance/Correlation for Time Series. R Journal, 8, 324-340.
Shao, X. (2010). The dependent wild bootstrap. Journal of the American Statistical Association, 105, 218-235.
See Also
mADCV, mADCF, mADCFtest
Examples
x <- matrix( rnorm(200), ncol = 2 )
n <- length(x)
c <- 3
lambda <- 0.1
p <- ceiling(c * n^lambda)
mF <- mADCVtest(x, type = "bar", p = p, b = 500, parallel = FALSE)
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