plot.mc.irf: Plotting posteriors of Monte Carlo simulated impulse responses

Description

Provides a plotting method for the mc.irf Monte Carlo sample of impulse responses. Responses can be plotted with classical or Bayesian error bands, as suggested by Sims and Zha (1999).

Usage

"plot"(x, method=c("Sims-Zha2"), component=1, probs=c(0.16,0.84), varnames = attr(x, "eqnames"), regimelabels=NULL, ask=TRUE, ...)

Arguments

Output of the mc.irf function

method

Method to be used for the error band construction. Default method is to use the eigendecomposition method proposed by Sims and Zha. Defined methods are "Percentile" (error bands are based on percentiles specified in probs), "Normal Approximation" (Gaussian approximation for interval of width probs), "Sims-Zha1" (Gaussian approximation with linear eigendecomposition), "Sims-Zha2" (Percentiles with eigendecomposition for each impulse response function), "Sims-Zha3" (Percentiles with eigendecomposition of the full stacked impulse responses)

component

If using one of the eigendecomposition methods, the eigenvector component to be used for the error band construction. Default is the first or largest eigenvector component.

probs

is the width of the error bands. Default is c(0.16, 0.84) which is a 68% band that is approximately one standard deviation, as suggested by Sims and Zha.

varnames

List of variable names of length $m$ for labeling the impulse responses. Default are the input variable names from the relevent estimation method.

regimelabels

For MSBVAR models from mc.irf, a character vector of length $h$ for the regime-specific IRFs. Default of NULL leads to automatic generation of "Regime 1", "Regime 2", etc.

ask

Default = TRUE, ask before showing the next regime's IRFs for MSBVAR models?

...

Other graphics parameters.

Value

responses: Responses and their error bands
eigenvector.fractions: Fraction of the variation in each response that is explained by the chosen eigenvectors. NULL for non-eigenvector methods.

Details

This function plots the output of a Monte Carlo simulation of (MS)(B)(BS)VAR impulse response functions produced by mc.irf. The function allows the user to choose among a variety of frequentist (normal appproximation and percentile) and Bayesian (eigendecomposition) methods for constructing error bands around a set of impulse responses. Impulses or shocks are in the columns and the rows are the responses.

References

Brandt, Patrick T. and John R. Freeman. 2006. "Advances in Bayesian Time Series Modeling and the Study of Politics: Theory Testing, Forecasting, and Policy Analysis" Political Analysis 14(1):1-36.

Sims, C.A. and Tao Zha. 1999. "Error Bands for Impulse Responses." Econometrica. 67(5): 1113-1156.

Examples

Run this code

## Not run: 
# data(IsraelPalestineConflict)
# fit.BVAR <- szbvar(IsraelPalestineConflict, p=6, z=NULL, lambda0=0.6,
#                    lambda1=0.1, lambda3=2, lambda4=0.5, lambda5=0,
#                    mu5=0, mu6=0, nu=3, qm=4, prior=0,
#                    posterior.fit=FALSE)
# 
# posterior.impulses <- mc.irf(fit.BVAR, nsteps=12, draws=1000)
# plot(posterior.impulses, method = c("Percentile"))
# ## End(Not run)

Run the code above in your browser using DataLab