fix typos
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@ -4838,21 +4838,21 @@ need of user intervention.
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The RMSE analysis can be performed with different types of sampling options:
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The RMSE analysis can be performed with different types of sampling options:
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@enumerate
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@enumerate
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@item
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@item
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When @code{pprior=1} and @code{ppost=0}, the toolbox analyzes the RMSE’s for
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When @code{pprior=1} and @code{ppost=0}, the toolbox analyzes the RMSEs for
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the Monte-Carlo sample obtained by sampling parameters from their prior distributions
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the Monte-Carlo sample obtained by sampling parameters from their prior distributions
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(or prior ranges): this analysis provides some hints about
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(or prior ranges): this analysis provides some hints about
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what parameter drives the fit of which observed series, prior to the full
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what parameter drives the fit of which observed series, prior to the full
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estimation;
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estimation;
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@item
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@item
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When @code{pprior=0} and @code{ppost=0}, the toolbox analyzes the RMSE’s for
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When @code{pprior=0} and @code{ppost=0}, the toolbox analyzes the RMSEs for
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a multivariate normal Monte-Carlo sample, with covariance matrix based on
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a multivariate normal Monte-Carlo sample, with covariance matrix based on
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the inverse Hessian at the optimum: this analysis is useful when maximum likelihood
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the inverse Hessian at the optimum: this analysis is useful when maximum likelihood
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estimation is done (@i{i.e.} no Bayesian estimation);
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estimation is done (@i{i.e.} no Bayesian estimation);
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@item
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@item
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When @code{ppost=1} the toolbox analyzes the RMSE’s for the posterior sample
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When @code{ppost=1} the toolbox analyzes the RMSEs for the posterior sample
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obtained by Dynare’s Metropolis procedure.
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obtained by Dynare's Metropolis procedure.
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@end enumerate
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@end enumerate
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The use of cases 2 and 3 requires an estimation step beforehand. To
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The use of cases 2 and 3 requires an estimation step beforehand. To
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@ -4904,34 +4904,34 @@ but the same conventions are used for multivariate normal and posterior):
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@itemize
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@itemize
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@item
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@item
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@code{<mod_file>_rmse_prior_*.fig}: for each parameter, plots the cdf’s
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@code{<mod_file>_rmse_prior_*.fig}: for each parameter, plots the cdfs
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corresponding to the best 10% RMES’s of each observed series;
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corresponding to the best 10% RMSEs of each observed series;
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@item
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@item
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@code{<mod_file>_rmse_prior_dens_*.fig}: for each parameter, plots the
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@code{<mod_file>_rmse_prior_dens_*.fig}: for each parameter, plots the
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pdf’s corresponding to the best 10% RMES’s of each observed series;
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pdfs corresponding to the best 10% RMESs of each observed series;
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@item
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@item
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@code{<mod_file>_rmse_prior_<name of observedseries>_corr_*.fig}: for
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@code{<mod_file>_rmse_prior_<name of observedseries>_corr_*.fig}: for
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each observed series plots the bi-dimensional projections of samples
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each observed series plots the bi-dimensional projections of samples
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with the best 10% RMSE’s, when the correlation is significant;
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with the best 10% RMSEs, when the correlation is significant;
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@item
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@item
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@code{<mod_file>_rmse_prior_lnlik*.fig}: for each observed series, plots
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@code{<mod_file>_rmse_prior_lnlik*.fig}: for each observed series, plots
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in red the cdf of the log-likelihood corresponding to the best 10%
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in red the cdf of the log-likelihood corresponding to the best 10%
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RMSE’s, in green the cdf of the rest of the sample and in blue the
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RMSEs, in green the cdf of the rest of the sample and in blue the
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cdf of the full sample; this allows one to see the presence of some
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cdf of the full sample; this allows one to see the presence of some
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idiosyncratic behavior;
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idiosyncratic behavior;
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@item
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@item
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@code{<mod_file>_rmse_prior_lnpost*.fig}: for each observed series, plots
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@code{<mod_file>_rmse_prior_lnpost*.fig}: for each observed series, plots
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in red the cdf of the log-posterior corresponding to the best 10% RMSE’s,
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in red the cdf of the log-posterior corresponding to the best 10% RMSEs,
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in green the cdf of the rest of the sample and in blue the cdf of the full
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in green the cdf of the rest of the sample and in blue the cdf of the full
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sample; this allows one to see idiosyncratic behavior;
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sample; this allows one to see idiosyncratic behavior;
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@item
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@item
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@code{<mod_file>_rmse_prior_lnprior*.fig}: for each observed series, plots
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@code{<mod_file>_rmse_prior_lnprior*.fig}: for each observed series, plots
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in red the cdf of the log-prior corresponding to the best 10% RMSE’s,
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in red the cdf of the log-prior corresponding to the best 10% RMSEs,
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in green the cdf of the rest of the sample and in blue the cdf of the full
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in green the cdf of the rest of the sample and in blue the cdf of the full
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sample; this allows one to see idiosyncratic behavior;
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sample; this allows one to see idiosyncratic behavior;
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