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-rw-r--r--man/mhmkin.Rd50
1 files changed, 44 insertions, 6 deletions
diff --git a/man/mhmkin.Rd b/man/mhmkin.Rd
index 4230e44f..c77f4289 100644
--- a/man/mhmkin.Rd
+++ b/man/mhmkin.Rd
@@ -43,11 +43,12 @@ supported}
\item{no_random_effect}{Default is NULL and will be passed to \link{saem}. If a
character vector is supplied, it will be passed to all calls to \link{saem},
-regardless if the corresponding parameter is in the model. Alternatively,
-an object of class \link{illparms.mhmkin} can be specified. This has to have
-the same dimensions as the return object of the current call. In this way,
-ill-defined parameters found in corresponding simpler versions of the
-degradation model can be specified.}
+which will exclude random effects for all matching parameters. Alternatively,
+a list of character vectors or an object of class \link{illparms.mhmkin} can be
+specified. They have to have the same dimensions that the return object of
+the current call will have, i.e. the number of rows must match the number
+of degradation models in the mmkin object(s), and the number of columns must
+match the number of error models used in the mmkin object(s).}
\item{cores}{The number of cores to be used for multicore processing. This
is only used when the \code{cluster} argument is \code{NULL}. On Windows
@@ -74,7 +75,7 @@ be indexed using the degradation model names for the first index (row index)
and the error model names for the second index (column index), with class
attribute 'mhmkin'.
-An object of class \code{\link{mhmkin}}.
+An object inheriting from \code{\link{mhmkin}}.
}
\description{
The name of the methods expresses that (\strong{m}ultiple) \strong{h}ierarchichal
@@ -82,6 +83,43 @@ The name of the methods expresses that (\strong{m}ultiple) \strong{h}ierarchicha
fitted. Our kinetic models are nonlinear, so we can use various nonlinear
mixed-effects model fitting functions.
}
+\examples{
+\dontrun{
+# We start with separate evaluations of all the first six datasets with two
+# degradation models and two error models
+f_sep_const <- mmkin(c("SFO", "FOMC"), ds_fomc[1:6], cores = 2, quiet = TRUE)
+f_sep_tc <- update(f_sep_const, error_model = "tc")
+# The mhmkin function sets up hierarchical degradation models aka
+# nonlinear mixed-effects models for all four combinations, specifying
+# uncorrelated random effects for all degradation parameters
+f_saem_1 <- mhmkin(list(f_sep_const, f_sep_tc), cores = 2)
+status(f_saem_1)
+# The 'illparms' function shows that in all hierarchical fits, at least
+# one random effect is ill-defined (the confidence interval for the
+# random effect expressed as standard deviation includes zero)
+illparms(f_saem_1)
+# Therefore we repeat the fits, excluding the ill-defined random effects
+f_saem_2 <- update(f_saem_1, no_random_effect = illparms(f_saem_1))
+status(f_saem_2)
+illparms(f_saem_2)
+# Model comparisons show that FOMC with two-component error is preferable,
+# and confirms our reduction of the default parameter model
+anova(f_saem_1)
+anova(f_saem_2)
+# The convergence plot for the selected model looks fine
+saemix::plot(f_saem_2[["FOMC", "tc"]]$so, plot.type = "convergence")
+# The plot of predictions versus data shows that we have a pretty data-rich
+# situation with homogeneous distribution of residuals, because we used the
+# same degradation model, error model and parameter distribution model that
+# was used in the data generation.
+plot(f_saem_2[["FOMC", "tc"]])
+# We can specify the same parameter model reductions manually
+no_ranef <- list("parent_0", "log_beta", "parent_0", c("parent_0", "log_beta"))
+dim(no_ranef) <- c(2, 2)
+f_saem_2m <- update(f_saem_1, no_random_effect = no_ranef)
+anova(f_saem_2m)
+}
+}
\seealso{
\code{\link{[.mhmkin}} for subsetting \link{mhmkin} objects
}

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