lrvar: Long-Run Variance of the Mean
In sandwich: Robust Covariance Matrix Estimators
lrvar R Documentation
Long-Run Variance of the Mean
Description
Convenience function for computing the long-run variance (matrix) of a
(possibly multivariate) series of observations.
Usage
lrvar(x, type = c("Andrews", "Newey-West"), prewhite = TRUE, adjust = TRUE, ...)
Arguments
x
numeric vector, matrix, or time series.
type
character specifying the type of estimator, i.e., whether
kernHAC for the Andrews quadratic spectral kernel HAC estimator
is used or NeweyWest for the Newey-West Bartlett HAC
estimator.
prewhite
logical or integer. Should the series be prewhitened?
Passed to kernHAC or NeweyWest.
adjust
logical. Should a finite sample adjustment be made?
Passed to kernHAC or NeweyWest.
...
further arguments passed on to kernHAC or
NeweyWest.
Details
lrvar is a simple wrapper function for computing the long-run variance
(matrix) of a (possibly multivariate) series x. First, this simply fits
a linear regression model x ~ 1 by lm. Second,
the corresponding variance of the mean(s) is estimated either by kernHAC
(Andrews quadratic spectral kernel HAC estimator) or by NeweyWest
(Newey-West Bartlett HAC estimator).
Value
For a univariate series x a scalar variance is computed. For a
multivariate series x the covariance matrix is computed.
See Also
kernHAC, NeweyWest, vcovHAC
Examples
suppressWarnings(RNGversion("3.5.0"))
set.seed(1)
## iid series (with variance of mean 1/n)
## and Andrews kernel HAC (with prewhitening)
x <- rnorm(100)
lrvar(x)
## analogous multivariate case with Newey-West estimator (without prewhitening)
y <- matrix(rnorm(200), ncol = 2)
lrvar(y, type = "Newey-West", prewhite = FALSE)
## AR(1) series with autocorrelation 0.9
z <- filter(rnorm(100), 0.9, method = "recursive")
lrvar(z)
sandwich documentation built on Sept. 30, 2024, 9:17 a.m.
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| lrvar | R Documentation |
Long-Run Variance of the Mean
Description
Convenience function for computing the long-run variance (matrix) of a (possibly multivariate) series of observations.
Usage
lrvar(x, type = c("Andrews", "Newey-West"), prewhite = TRUE, adjust = TRUE, ...)
Arguments
x |
numeric vector, matrix, or time series. |
type |
character specifying the type of estimator, i.e., whether
|
prewhite |
logical or integer. Should the series be prewhitened?
Passed to |
adjust |
logical. Should a finite sample adjustment be made?
Passed to |
... |
further arguments passed on to |
Details
lrvar is a simple wrapper function for computing the long-run variance
(matrix) of a (possibly multivariate) series x. First, this simply fits
a linear regression model x ~ 1 by lm. Second,
the corresponding variance of the mean(s) is estimated either by kernHAC
(Andrews quadratic spectral kernel HAC estimator) or by NeweyWest
(Newey-West Bartlett HAC estimator).
Value
For a univariate series x a scalar variance is computed. For a
multivariate series x the covariance matrix is computed.
See Also
kernHAC, NeweyWest, vcovHAC
Examples
suppressWarnings(RNGversion("3.5.0"))
set.seed(1)
## iid series (with variance of mean 1/n)
## and Andrews kernel HAC (with prewhitening)
x <- rnorm(100)
lrvar(x)
## analogous multivariate case with Newey-West estimator (without prewhitening)
y <- matrix(rnorm(200), ncol = 2)
lrvar(y, type = "Newey-West", prewhite = FALSE)
## AR(1) series with autocorrelation 0.9
z <- filter(rnorm(100), 0.9, method = "recursive")
lrvar(z)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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