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Testing for and dating periods of explosive dynamics (exuberance) in time series using the univariate and panel recursive unit root tests proposed by Phillips et al. (2015) and Pavlidis et al. (2016). The recursive least-squares algorithm utilizes the matrix inversion lemma to avoid matrix inversion which results in significant speed improvements. Simulation of a variety of periodically-collapsing bubble processes.
Testing for explosive dynamics is comprised of two distinct parts :
Some Context: Conventional testing techniques compute critical values,and p-values from a standard distribution, where the user does not need to specify critical values explicitly. However, the recent literature in explosive dynamics require the use of non-standard distributions, which require the use of techniques that sample empirical distributions in order to calculate the critical values.
The cornerstone function of the package is:
radf()
: Recursive Augmented Dickey-Fuller Test.This function offers a vectorized estimation (i.e. single and/or multiple time-series) for individual and panel estimation. The estimation can parse data from multiple classes and handle dates as index.
There are several options for generating critical values:
radf_mc_cv()
: Monte Carloradf_wb_cv()
: Wild Bootstrapradf_sb_cv()
: Sieve Bootstrap (Panel)On default exuber
will use Monte Carlo simulated
critical values if no other option is provided. The package offers these
critical values in the form of data
(up to 600
observations), that are obtained with the mc_cv()
function.
For the analysis you should include both the output from estimation
(object
) and critical values (cv
). The below
methods break the process into small simple steps:
summary()
summarizes the model.diagnostics()
shows which series reject the null
hypothesis .datestamp()
computes the origination, termination and
duration of episodes (if any).These combined provide a comprehensive analysis on the exuberant behavior of the model.
# Install release version from CRAN
install.packages("exuber")
You can install the development version of exuber from GitHub.
# install.packages("devtools")
::install_github("kvasilopoulos/exuber") devtools
If you encounter a clear bug, please file a reproducible example on GitHub.
library(exuber)
<- radf(sim_data)
rsim_data
summary(rsim_data)
#> Using `radf_crit` for `cv`.
#>
#> -- Summary (minw = 19, lag = 0) ------------------- Monte Carlo (nrep = 2000) --
#>
#> psy1 :
#> # A tibble: 3 x 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf -2.46 -0.413 -0.0812 0.652
#> 2 sadf 1.95 0.988 1.29 1.92
#> 3 gsadf 5.19 1.71 1.97 2.57
#>
#> psy2 :
#> # A tibble: 3 x 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf -2.86 -0.413 -0.0812 0.652
#> 2 sadf 7.88 0.988 1.29 1.92
#> 3 gsadf 7.88 1.71 1.97 2.57
#>
#> evans :
#> # A tibble: 3 x 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf -5.83 -0.413 -0.0812 0.652
#> 2 sadf 5.28 0.988 1.29 1.92
#> 3 gsadf 5.99 1.71 1.97 2.57
#>
#> div :
#> # A tibble: 3 x 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf -1.95 -0.413 -0.0812 0.652
#> 2 sadf 1.11 0.988 1.29 1.92
#> 3 gsadf 1.34 1.71 1.97 2.57
#>
#> blan :
#> # A tibble: 3 x 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf -5.15 -0.413 -0.0812 0.652
#> 2 sadf 3.93 0.988 1.29 1.92
#> 3 gsadf 11.0 1.71 1.97 2.57
diagnostics(rsim_data)
#> Using `radf_crit` for `cv`.
#>
#> -- Diagnostics (option = gsadf) --------------------------------- Monte Carlo --
#>
#> psy1: Rejects H0 at the 1% significance level
#> psy2: Rejects H0 at the 1% significance level
#> evans: Rejects H0 at the 1% significance level
#> div: Cannot reject H0
#> blan: Rejects H0 at the 1% significance level
datestamp(rsim_data)
#> Using `radf_crit` for `cv`.
#>
#> -- Datestamp (min_duration = 0) --------------------------------- Monte Carlo --
#>
#> psy1 :
#> Start Peak End Duration Signal Ongoing
#> 1 44 48 56 12 positive FALSE
#>
#> psy2 :
#> Start Peak End Duration Signal Ongoing
#> 1 22 40 41 19 positive FALSE
#> 2 62 70 71 9 positive FALSE
#>
#> evans :
#> Start Peak End Duration Signal Ongoing
#> 1 20 20 21 1 positive FALSE
#> 2 44 44 45 1 positive FALSE
#> 3 66 67 68 2 positive FALSE
#>
#> blan :
#> Start Peak End Duration Signal Ongoing
#> 1 34 36 37 3 positive FALSE
#> 2 84 86 87 3 positive FALSE
autoplot(rsim_data)
#> Using `radf_crit` for `cv`.
Please note that the ‘exuber’ project is released with a Contributor Code of Conduct. By contributing to this project, you agree to abide by its terms.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.