gmvarkit 1.1.0
- Added a
NEWS.md
file to track changes to the
package.
- New exported functions: uncond_moments, cond_moments,
get_regime_means, get_regime_autocovs, get_omega_eigens, get_soc.
- simulateGMVAR now provides better tools for forecasting. This update
includes non-backward compatible changes for the return values if the
argument ntimes is set to be larger than one. In additional to the
samples, it now returns a list containing the mixing weights and
component that was used to generate each observation.
- diagnostic_plot normality plot now plots histograms instead of
kernel estimates.
- In the predict method arguments “ci” and “ci_type” were changed to
“pi” and “pi_type” to signify “prediction interval”” as it’s more
correct expression than “confidence interval”. Also the default
prediction method is now median, and not mean.
- Generally more functionality for conditional and unconditional
moments.
- Increased numerical tolerance for considering models to be
stationary to attain better numerical stability.
- Updates on documentation, fixed typos.
gmvarkit 1.1.1
- Changed the default number of CPU cores employed by the estimation
function fitGMVAR to be at most two due to CRAN policy.
- Added argument “seeds” to fitGMVAR allowing one to set the random
number generator seed for each call to the genetic algorithm.
- New exported function: alt_gmvar
- Updated the vignette to include the definition of the GMVAR
model
gmvarkit 1.1.2
- New exported functions: ‘profile_logliks’ (plot profile
log-likelihood functions), ‘get_foc’ (gradient at the estimates, recall
also ‘get_soc’)
- Now standard errors are printed correctly for models imposing all
kinds of constraints (in earlier versions standard errors for such
constrained AR parameters that involved sums or multiplication were
incorrect).
- Minor update on the genetic algorithm.
- Minor update on the print and summary-print methods.
- Improvements on the comments and documentation.
gmvarkit 1.1.3
- Updated the predict method to include forecasts for the mixing
weights. Also updated the return value.
- The headlines in ‘profile_logliks’ are now correct for
mean-parametrized models (there was phi parameter instread of mu).
- Improved the vignette.
- The default population size in the genetic algorithm is now
50ceiling(sqrt(npars)), was 10npars.
- In the function quantile_residual_tests the default argument ‘nsimu’
is now 1 so that the tests are based on the given data only (and not on
simulation).
- Corrected an error-causing bug in the predict method when the
argument ‘nt’ was not specified.
gmvarkit 1.2.0
- A structural GMVAR model is introduced! The SGMVAR model can be
estimated with the function ‘fitGMVAR’ or constructed by hand with the
function ‘GMVAR’, while also other existing functions such as
‘profile_logliks’, ‘quantile_residual_tests’, ‘diagnostic_plot’, etc.
work with the SGMVAR model as well. See the cited paper by Virolainen
(2020) or the vignette for the model definition and identification
conditions.
- New exported function: ‘GIRF’ for estimating generalized impulse
function for the variables in a SGMVAR model.
- New exported function: ‘Wald_test’ for conducting a Wald test
testing validity of parameter constraints.
- New exported function: ‘LR_test’ for conducting a likelihood ratio
test testing validity of parameter constraints.
- New exported function: ‘gmvar_to_sgmvar’ for building a structural
GMVAR model based on a two-regime reduced form GMVAR model.
- New exported function: ‘reorderd_W_column’ for reordering the
columns of W matrix of a structural GMVAR model.
- New exported function: ‘swap_W_signs’ for swapping all signs the
pointed columns of W matrix (and also B-matrix) of a structural GMVAR
model.
- Bug fix: the prediction intervals for mixing weights were incorrect
when calculating upper or lower prediction intervals with only one level
of significance.
- Minor computation speed improvements.
- Non-backward-compatible change: the functions ‘get_boldA_eigens’ and
‘get_omega_eigens’ now return matrices and not lists.
- Included the structural GMVAR model in a vignette.
gmvarkit 1.2.1
- Fixed CRAN issues concerning certain unit tests (not visible to
users).
gmvarkit 1.2.2
- The plot method of class gmvar objects now also plots marginal
stationary densities along with kernel density estimates of the
individual time series.
- New exported function: ‘cond_moment_plot’ for plotting in-sample
conditional means and variances
- Changed ‘diagnostic_plot’ to automatically show all four figures by
default and improved the quantile residual time series plot.
- Added the argument ‘which_largest’ to the function ‘alt_gmvar’
- In GIRF the default shock size is now one, which is then amplified
by the B-matrix according to the conditional standard deviation of the
model.
- Fixed a bug that caused error when trying to estimate a structural
model with more than two regimes and no zero restrictions.
- Fixed a bug that caused error when estimating GIRF with only one
initial regime that is not the first regime.
- Fixed a bug that caused error when printing standard errors of a
SGMVAR model with constraints on the lambda parameters.
gmvarkit 1.2.3
- The function GIRF now enables to directly calculate cumulative
impulse responses.
- Updated some of the examples, readme, and vignette.
- Fixed a bug that caused error in estimation of GIRF with very large
shock size.
- Fixed a bug that caused error in estimation of AR constrained models
when initial population is used in the genetic algorithm.
gmvarkit 1.3.0
- Major speed improvement!
- Changing the numerical tolerances for stationarity of the AR
parameters and positive definiteness of the error term covariance
matrices is now possible everywhere expect in the main estimation
function and genetic algorithm (to avoid errors in the estimation). This
might help in the analysis (std errors, quantile residual tests, further
iterative estimation, etc) of models with parameter values that are very
close to the border of the parameter space, but too small numerical
tolerance may also cause errors.
- In the function GIRF, the argument ‘variables’ was renamed as
‘which_shocks’.
- New exported function: “update_numtols” which enables one to update
the numerical tolerances for stationarity of the AR parameters and
positive definiteness of the error term covariance matrices in existing
class ‘gmvar’ model.
- Log-likelihood function should not return -Inf anymore but with
extremely bad estimates (for some t) the value is not precise (before in
such cases it was -Inf). This should lead to better estimation results
in some cases.
- Fixed a problem in the estimation algorithm that occurred when
estimating a structural model with zero constraints in the W
matrix.
- Increased the default maxit from 300 to 500 in fitGMVAR, the default
maxlag from 10 to 12 in diagnostic_plot, and decreased the default
initial ar_scale from 1 to 0.2 in GAfit.
- There is now randomly varying “ar_scale” in the genetic algorithm
but initial population ar_scale can still be adjusted.
- There is now possibility to set random preliminary smart mutations
in the genetic algorithm.
- The package Brobdingnag is not imported anymore.
- The default lags used in quantile residual tests are now 1, 3, 6,
and 12.
- Updated the documentation of fitGMVAR: more instructions on what to
do when the algorithm fails to create an initial population were
added.
- Some updates in the vignette, examples, and other
documentation.
gmvarkit 1.3.1
- Bug fix which required that Brobdingnag was added back to the
imported packages. There was in some rare cases a problem with the exact
log-likelihood function that was introduced in the version 1.3.0 (the
fix was introduced in the same day as the bug, however).
gmvarkit 1.4.0
- Major speed improvement (when d*p > 12)!
- New feature: possibility to constrain the (unconditional) mean
parameters to the same among some regimes with the argument
‘same_means’. This feature is available for mean-parametrized models
only (due to technical reasons).
- The default number of estimation rounds was increased to ’floor(10 +
30*log(M))’.
- Added more adjustable parameters to the genetic algorithm.
- Some changes related to estimation with the genetic algorithm (the
estimation results might be different with this version, if AR or lambda
constraints are employed, or in some cases when there are no
overidentifying constraints in the W matrix).
- Fixed a bug in the predict method that appeared in the very rare
cases when one uses the exact one-step conditional mean without
confidence intervals as the the prediction method with
mean-parametrization.
- In this version, the estimation results with a given seed are
different to those in the previous one due to a hidden problem that was
introduced.
gmvarkit 1.4.1
- Fixed CRAN check issues and examples regarding LR and Wald
tests.
- Fixed a problem in the estimation procedure that was introduced in
the previous version.
- Updated some of the examples so that the running time for all of
them is now shorter.
- The genetic algorithm now sorts regimes of the structural models by
mixing weight parameters to decreasing order by redecomposing the error
term covariance matrices if the first regime changes (before, only
regimes 2,..,M were sorted). As a result, the MLE is now found with
higher probability in each estimation round.
- In this version, the estimation results with a given seed are
different to those in the previous versions due to the updates (see
above).
gmvarkit 1.4.2
- New exported function: GFEVD for estimating the generalized forecast
error variance decomposition.
- Print and summary methods for gmvar objects now display the number
of parameters and observations.
- Now also iterate_more and and alt_gmvar return the results from all
estimation rounds.
- There is now possibility to choose not to calculate approximate
standard errors when using gmvar_to_sgmvar, because it is
computationally demanding for large models.
- Fixed a bug in the GIRF print method: it sometimes referred to wrong
shocks when GIRF was estimated for only a subset of the shocks or the
shocks were not in an increasing order.
- Fixed a bug in that caused an error in some functions when the model
was adjusted to have smaller stationarity/posdef tolerance than the
default one and the model was outside the default tolerance.
- Now fitGMVAR, iterate_more, and alt_gmvar warn if some regime has
near-unit-roots or near-singular error term covariance matrix.
- Now the argument shock_size in GIRF should be a scalar value.
- Fixed a bug in the estimation algorithm that occurred when
estimating structural models. This might have caused an error or just
the model not to estimate that well. A small adjustment was also done.
Because there was a change in the algorithm, the structural model
estimations done with the previous versions are generally not
reproducible with this version.
- Fixed the documentation for the argument ar_scale2.
- Fixed the argument “precission” in profile_logliks to
“precision”.
- Now fitGMVAR, GFEVD, and GIRF don’t call closeAllConnections:
instead, they only close the connections they opened.
- Added new datasets: usamone_prec and usamone
gmvarkit 1.5.0
- The function GIRF now allows to scale the GIRFs of some shocks to
normalize the magnitude of the instantaneous movement of some
variable.
- Changed the default ncalls in fitGMVAR to 100.
- Updated the plot method for class girf objects.
- Re-used the class ‘htest’ for the objects returned by the functions
Wald_test and LR_test.
- Removed confusing NAs from the standard error prints when the
related statistics are not parametrized in the first place.
- The function GMVAR now throws an error if there are more parameters
in the model than d*nrow(data).
- Internal functions are now removed from the user manual.
- Added the data gdpdef, updated the examples for this data, and
removed the old data.
gmvarkit 2.0.0
- This update should be mostly backward compatible, but some changes
made in the argument names are not.
- gmvarkit now accommodates new models: the StMVAR model and the
G-StMVAR model, as well their structural versions (see the vignette or
the references in the package description).
- Changed the model class from ‘gmvar’ to ‘gsmvar’ to accommodate also
StMVAR and G-StMVAR models.
- Renamed functions: GMVAR -> GSMVAR; fitGMVAR -> fitGSMVAR;
alt_gmvar -> alt_gsmvar; gmvar_to_sgmvar -> gsmvar_to_sgsmvars;
also all the class ‘gmvar’ methods were changed to class ‘gsmvar’
methods.
- New improved vignette.
- The old simulation function ‘simulateGMVAR’ is now deprecated. Now,
we use the class ‘gsmvar’ simulation method ‘simulate.gsmvar’
instead.
- simulate.gsmvar now allows to generate initial values from the
stationary distribution of a specific regime or from a mixture
distribution of any set of regimes. Some argument names needed to be
changed to make the method CRAN compatible.
- New exported function ‘stmvar_to_gstmvar’: estimate a G-StMVAR model
based on a StMVAR model with large degrees of freedom parameters.
- Now the function ‘quantile_residual_tests’ takes use of parallel
computing to shorten the computation time.
- Changes to the default arguments ‘M’ and ‘maxit’ of the function
‘fitGSMVAR’
- In the method predict.gsmvar, changed the argument name n_simu to
nsim, since nsim is now used in the simulation method as well.
- Changed the argument name nsimu to nsim in quantile_residual_tests
as well, so that the argument name is the same as in the predict and
simulate methods (while this specific name was required by CRAN
compatibility in the simulation method).
- Fixed a bug in the argument scale of the function GIRF. Fixed also a
bug that caused an error in some cases.
- Now the plot method for class ‘gsmvar’ objects enables to plot only
a single figure: series plot or density plot.
- Note that this version might produce different results with the same
random number generator seed than the previous versions.
gmvarkit 2.0.1
- Now GIRF also returns all the girfs from each Monte Carlo
repetition.
- Added the data “usamone” that is used in the cited paper by
Virolainen introducing the structural GMVAR model.
- Updated the references.
- Updated the vignette.
gmvarkit 2.0.2
- We do not recycle the class “htest” for Wald and LR tests anymore
because the print method was buggy and beyond the control of the author.
Now Wald and LR tests use the class “hypotest” with a dedicated print
method.
- Changed the default ncalls in fitGSMVAR to (M + 1)^5.
- Fixed a bug that sometimes caused an error in the estimation
algorithm because the random degrees of freedom parameters were too
close to their strict lower bound 2. This change may have an effect on
the estimation results of StMVAR and G-StMVAR models with specific
seed.
- Adjusted the tolerance when the estimation functions warns about
near-non-stationary estimates or near-singular error term covariance
matrices.
- Updated the vignette.
gmvarkit 2.0.3
- Fixed a bug that caused an error when trying to estimate model a
with restrictions on the mean parameters or a G-StMVAR model by setting
up initial population in the genetic algorithm.
- Fixed bug that made some of the functions unable to calculate first
and second differences for structural models
- Added new functionality to the function gsmvar_to_sgsmvar: now it is
possible to employ Cholesky identification if M=1.
- Added new function: estimate_sgsmvar which can be used to
conveniently estimate overidentified structural models.
- Updated the data ‘usamone’ to contain the observations until the end
of 2021.
- Added the data ‘euromone’ that is used in the (G-)StMVAR paper of
Virolainen.
- Fixed CRAN issues.
gvmarkit 2.0.4
gmvarkit 2.0.5
gmvarkit 2.0.6
gmvarkit 2.0.7
- Fixed a bug in simulations from Student’s t regimes
- Updated the print method of gsmvarpred objects
gmvarkit 2.0.8
- Fixed a bug in simulations from Student’s t regimes
gmvarkit 2.0.9
- Added the function ‘Rao_test’ implementing the Rao’s score
test.
gmvarkit 2.0.10
- Fixed the package overview help file and removed redundant argument
from the documentation of warn_eigens.
gmvarkit 2.1.0
- Added support for recursively identified structural GSMVAR
models.
- Added the function linear_IRF to calculate linear impulse response
functions based on a single regime. Bootstrapped confidence bounds are
also available for models that impose linear autoregressive
dynamics.
- Added a possibility to constrain the mixing weight parameters alphas
to fixed constants.
- Added a possibility to constrain the lambda parameters of structural
models to fixed constant.
- Added the function Pearson_residuals to calculate the standardized
Pearson residuals or the raw residuals.
- Added the dataset ‘usamon’.
- fitGSMVAR can now filter out (many of the) inappropriate estimates
by setting filter_estimates=TRUE.
- fitGSMVAR can now estimate without parallel computing and printout
by specifying use_parallel=FALSE.
- Updated the vignette (e.g., added a description of the Monte Carlo
algorithm implemented to estimate GIRFs).
- Fixed the .Rd files for random_df and smart_df.
- Fixed a bug in the estimation of GIRF and GFEVD for StMVAR and
G-StMVAR models
- Fixed a bug that occurred using stmvar_to_gstmvar for structural
models.
- Fixed a bug that occurred when using swap_W_signs with C_lambda
constraints.
- Fixed a bug in Rao test when using G-StMVAR model
- Fixed a bug in get_foc, get_gradient, get_soc, and get_hessian that
returned only NAs for models with same_means.
gmvarkit 2.1.1
- Bug fix for estimate_sgmvar for the case when relaxing a zero
constraints.
- Slightly adjusted the setting of estimate_sgmvar.
- Added a strict upper bound of one for ar_scale to avoid problems
caused by numerical inaccuracies caused by imprecise machine
accuracy.
- Added note to the GAfit’s documentation for using ar_scale with
large p or d. Also bounded upper_ar_scale by 1-pd/150 when
pd>40 to avoid numerical issues (but it does not go below
0.05).
gmvarkit 2.1.2
- fitGSMVAR now automatically filters out inappropriate estimates by
default.
- Updated the reference structural models identified by
heterokedasticity.
- Fixed a lot of typos etc in the vignette.
- Updates to readme.
gmvarkit 2.1.3
- Added table of contents to the vignette.
- Fixed typos etc in the vignette.