radf_wb_cv2: Wild Bootstrap Critical Values
In kvasilopoulos/exuber: Econometric Analysis of Explosive Time Series
radf_wb_cv2 R Documentation
Wild Bootstrap Critical Values
Description
radf_wb_cv performs the Phillips & Shi (2020) wild bootstrap re-sampling
scheme, which is asymptotically robust to non-stationary volatility, to
generate critical values for the recursive unit root tests. radf_wb_distr2
computes the distribution.
Usage
radf_wb_cv2(
data,
minw = NULL,
nboot = 500L,
adflag = 0,
type = c("fixed", "aic", "bic"),
tb = NULL,
seed = NULL
)
radf_wb_distr2(
data,
minw = NULL,
nboot = 500L,
adflag = 0,
type = c("fixed", "aic", "bic"),
tb = NULL,
seed = NULL
)
Arguments
data
A univariate or multivariate numeric time series object, a numeric
vector or matrix, or a data.frame. The object should not have any NA values.
minw
A positive integer. The minimum window size (default =
(0.01 + 1.8/\sqrt(T))T, where T denotes the sample size).
nboot
A positive integer. Number of bootstraps (default = 500L).
adflag
A positive integer. Number of lags when type is "fixed" or number
of max lags when type is either "aic" or "bic".
type
Character. "fixed" for fixed lag, "aic" or "bic" for automatic lag
selection according to the criterion.
tb
A positive integer. The simulated sample size.
seed
An object specifying if and how the random number generator (rng)
should be initialized. Either NULL or an integer will be used in a call to
set.seed before simulation. If set, the value is saved as "seed" attribute
of the returned value. The default, NULL, will not change rng state, and
return .Random.seed as the "seed" attribute. Results are different between
the parallel and non-parallel option, even if they have the same seed.
Value
For radf_wb_cv2 a list that contains the critical values for the ADF,
BADF, BSADF and GSADF tests. For radf_wb_distr a list that
contains the ADF, SADF and GSADF distributions.
References
Phillips, P. C., & Shi, S. (2020). Real time monitoring of
asset markets: Bubbles and crises. In Handbook of Statistics (Vol. 42, pp. 61-80). Elsevier.
Phillips, P. C. B., Shi, S., & Yu, J. (2015). Testing for
Multiple Bubbles: Historical Episodes of Exuberance and Collapse in the
S&P 500. International Economic Review, 56(4), 1043-1078.
See Also
radf_mc_cv for Monte Carlo critical values and
radf_sb_cv for sieve bootstrap critical values.
Examples
# Default minimum window
wb <- radf_wb_cv2(sim_data)
tidy(wb)
# Change the minimum window and the number of bootstraps
wb2 <- radf_wb_cv2(sim_data, nboot = 600, minw = 20)
tidy(wb2)
# Simulate distribution
wdist <- radf_wb_distr(sim_data)
autoplot(wdist)
kvasilopoulos/exuber documentation built on March 18, 2024, 8:49 a.m.
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| radf_wb_cv2 | R Documentation |
Wild Bootstrap Critical Values
Description
radf_wb_cv performs the Phillips & Shi (2020) wild bootstrap re-sampling
scheme, which is asymptotically robust to non-stationary volatility, to
generate critical values for the recursive unit root tests. radf_wb_distr2
computes the distribution.
Usage
radf_wb_cv2(
data,
minw = NULL,
nboot = 500L,
adflag = 0,
type = c("fixed", "aic", "bic"),
tb = NULL,
seed = NULL
)
radf_wb_distr2(
data,
minw = NULL,
nboot = 500L,
adflag = 0,
type = c("fixed", "aic", "bic"),
tb = NULL,
seed = NULL
)
Arguments
data |
A univariate or multivariate numeric time series object, a numeric vector or matrix, or a data.frame. The object should not have any NA values. |
minw |
A positive integer. The minimum window size (default =
|
nboot |
A positive integer. Number of bootstraps (default = 500L). |
adflag |
A positive integer. Number of lags when type is "fixed" or number of max lags when type is either "aic" or "bic". |
type |
Character. "fixed" for fixed lag, "aic" or "bic" for automatic lag selection according to the criterion. |
tb |
A positive integer. The simulated sample size. |
seed |
An object specifying if and how the random number generator (rng)
should be initialized. Either NULL or an integer will be used in a call to
|
Value
For radf_wb_cv2 a list that contains the critical values for the ADF,
BADF, BSADF and GSADF tests. For radf_wb_distr a list that
contains the ADF, SADF and GSADF distributions.
References
Phillips, P. C., & Shi, S. (2020). Real time monitoring of asset markets: Bubbles and crises. In Handbook of Statistics (Vol. 42, pp. 61-80). Elsevier.
Phillips, P. C. B., Shi, S., & Yu, J. (2015). Testing for Multiple Bubbles: Historical Episodes of Exuberance and Collapse in the S&P 500. International Economic Review, 56(4), 1043-1078.
See Also
radf_mc_cv for Monte Carlo critical values and
radf_sb_cv for sieve bootstrap critical values.
Examples
# Default minimum window
wb <- radf_wb_cv2(sim_data)
tidy(wb)
# Change the minimum window and the number of bootstraps
wb2 <- radf_wb_cv2(sim_data, nboot = 600, minw = 20)
tidy(wb2)
# Simulate distribution
wdist <- radf_wb_distr(sim_data)
autoplot(wdist)
R Package Documentation
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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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