Use predict_lme4
on groups to generate average trend and apply to original data
Source: R/predict_lme4_avg_trend.R
predict_lme4_avg_trend.Rd
predict_lme4_avg_trend()
uses mixed models from lme4 to fit a model
to groups within the data, and then bring that fitted prediction back to the
original data. Full details on available mixed models can be found at
lme4 package page and its implementation in augury at predict_lme4()
.
The function also allows for inputting of data type and source information
directly into the data frame if the type_col
and source_col
are specified
respectively.
Usage
predict_lme4_avg_trend(
df,
model,
formula,
average_cols = NULL,
weight_col = NULL,
group_models = FALSE,
...,
ret = c("df", "all", "error", "model"),
scale = NULL,
probit = FALSE,
test_col = NULL,
test_period = NULL,
test_period_flex = NULL,
group_col = "iso3",
obs_filter = NULL,
sort_col = "year",
sort_descending = FALSE,
pred_col = "pred",
pred_upper_col = "pred_upper",
pred_lower_col = "pred_lower",
upper_col = "upper",
lower_col = "lower",
filter_na = c("predictors", "response", "all", "none"),
type_col = NULL,
types = c("imputed", "imputed", "projected"),
source_col = NULL,
source = NULL,
scenario_detail_col = NULL,
scenario_detail = NULL,
replace_obs = c("missing", "all", "none"),
error_correct = FALSE,
error_correct_cols = NULL,
shift_trend = FALSE
)
Arguments
- df
Data frame of model data.
- model
An lme4 function that outputs a merMod object with that can be passed to
merTools::predictInterval()
. This should be one oflme4::lmer()
,lme4::glmer()
, orlme4::nlmer()
.- formula
A formula that will be supplied to the model, such as
y~x
.- average_cols
Column name(s) of column(s) for use in grouping data for averaging, such as regions. If missing, uses global average of the data for infilling.
- weight_col
Column name of column of weights to be used in averaging, such as country population.
- group_models
Logical, if
TRUE
, fits and predicts models individually onto eachgroup_col
. IfFALSE
, a general model is fit across the entire data frame.- ...
Other arguments passed to the model function.
- ret
Character vector specifying what values the function returns. Defaults to returning a data frame, but can return a vector of model error, the model itself or a list with all 3 as components.
- scale
Either
NULL
or a numeric value. If a numeric value is provided, the response variable is scaled by the value passed to scale prior to model fitting and prior to any probit transformation, so can be used to put the response onto a 0 to 1 scale. Scaling is done by dividing the response by the scale and using thescale_transform()
function. The response, as well as the fitted values and confidence bounds are unscaled prior to error calculation and returning to the user.- probit
Logical value on whether or not to probit transform the response prior to model fitting. Probit transformation is performed after any scaling determined by
scale
but prior to model fitting. The response, as well as the fitted values and confidence bounds are untransformed prior to error calculation and returning to the user.- test_col
Name of logical column specifying which response values to remove for testing the model's predictive accuracy. If
NULL
, ignored. Seemodel_error()
for details on the methods and metrics returned.- test_period
Length of period to test for RMChE. If
NULL
, beginning and end points of each group ingroup_col
are compared. Otherwise,test_period
must be set to an integern
and for each group, comparisons are made between the end point andn
periods prior.- test_period_flex
Logical value indicating if
test_period
is less than the full length of the series, should change error still be calculated for that point. Defaults toFALSE
.- group_col
Column name(s) of group(s) to use in
dplyr::group_by()
when supplying type, calculating mean absolute scaled error on data involving time series, and ifgroup_models
, then fitting and predicting models too. IfNULL
, not used. Defaults to"iso3"
.- obs_filter
String value of the form "
logical operator
integer
" that specifies the number of observations required to fit the model and replace observations with predicted values. This is done in conjunction withgroup_col
. So, ifgroup_col = "iso3"
andobs_filter = ">= 5"
, then for this model, predictions will only be used foriso3
vales that have 5 or more observations. Possible logical operators to use are>
,>=
,<
,<=
,==
, and!=
.If `group_models = FALSE`, then `obs_filter` is only used to determine when predicted values replace observed values but **is not** used to restrict values from being used in model fitting. If `group_models = TRUE`, then a model is only fit for a group if they meet the `obs_filter` requirements. This provides speed benefits, particularly when running INLA time series using `predict_inla()`.
- sort_col
Column name(s) to use to
dplyr::arrange()
the data prior to supplying type and calculating mean absolute scaled error on data involving time series. IfNULL
, not used. Defaults to"year"
.- sort_descending
Logical value on whether the sorted values from
sort_col
should be sorted in descending order. Defaults toFALSE
.- pred_col
Column name to store predicted value.
- pred_upper_col
Column name to store upper bound of confidence interval generated by the
predict_...
function. This stores the full set of generated values for the upper bound.- pred_lower_col
Column name to store lower bound of confidence interval generated by the
predict_...
function. This stores the full set of generated values for the lower bound.- upper_col
Column name that contains upper bound information, including upper bound of the input data to the model. Values from
pred_upper_col
are put into this column in the exact same way the response is filled bypred
based onreplace_na
(only when there is a missing value in the response).- lower_col
Column name that contains lower bound information, including lower bound of the input data to the model. Values from
pred_lower_col
are put into this column in the exact same way the response is filled bypred
based onreplace_na
(only when there is a missing value in the response).- filter_na
Character value specifying how, if at all, to filter
NA
values from the dataset prior to applying the model. By default, all observations with missing values are removed, although it can also remove rows only if they have missing dependent or independent variables, or no filtering at all.- type_col
Column name specifying data type.
- types
Vector of length 3 that provides the type to provide to data produced in the model. These values are only used to fill in type values where the dependent variable is missing. The first value is given to missing observations that precede the first observation, the second to those after the last observation, and the third for those following the final observation.
- source_col
Column name containing source information for the data frame. If provided, the argument in
source
is used to fill in where predictions have filled in missing data.- source
Source to add to missing values.
- scenario_detail_col
Column name containing scenario_detail information for the data frame. If provided, the argument in
scenario_detail
is used to fill in where prediction shave filled in missing data.- scenario_detail
Scenario details to add to missing values (usually the name of the model being used to generate the projection, optionally with relevant parameters).
- replace_obs
Character value specifying how, if at all, observations should be replaced by fitted values. Defaults to replacing only missing values, but can be used to replace all values or none.
- error_correct
Logical value indicating whether or not whether mean error should be used to adjust predicted values. If
TRUE
, the mean error between observed and predicted data points will be used to adjust predictions. Iferror_correct_cols
is notNULL
, mean error will be used within those groups instead of overall mean error.- error_correct_cols
Column names of data frame to group by when applying error correction to the predicted values.
- shift_trend
Logical value specifying whether or not to shift predictions so that the trend matches up to the last observation. If
error_correct
andshift_trend
are bothTRUE
,shift_trend
takes precedence.
Value
Depending on the value passed to ret
, either a data frame with
predicted data, a vector of errors from model_error()
, a fitted model, or a list with all 3.