get_data
function.The get_data
function throws an error indicating that
the Method column is missing from the custom user-supplied data.
We set ‘national=TRUE’ for national datasets. As this is a single country estimation, we will also set ‘local=TRUE’. In multicountry estimation, we can set ‘local=FALSE’. The pathway to the example custom dataset is given, replace this with the pathway of your example dataset. Lastly, state the name of the country you have custom data for.
You will get an error when you run this function. The data we supplied does not have the Method column. The warning message is telling you to check your input as the column ‘Method’ is either missing or incorrectly named, along with many others.
cleaned_data <- get_data(national=TRUE, local=TRUE,
surveydata_filepath = "~/Documents/R/mcmsupply/inst/data-raw/my_custom_national_data_bad.xlsx",
mycountry="Ethiopia")
## Error in get_data(national = TRUE, local = TRUE, surveydata_filepath = "~/Documents/R/mcmsupply/inst/data-raw/my_custom_national_data_bad.xlsx", : could not find function "get_data"
get_data
functionWe repeat the steps from above, but this time we will use the correctly formatted national dataset.
Success! In this instance, the data you wish to use for your estimation is correct and in the correct format. Therefore the function runs without an error message.
During this step, we must supply the ‘get_modelinputs’ function with the associated variance-covariance arrays associated with the custom data supplied. Each survey year and method should have a corresponding matrix within the array of the supplied variance-covariance. Please beware that the order of the matrices (in terms of method-year combinations) within the array should match the order of the custom data, otherwise there will be a mismatch during the model estimation step.
The rest of the mcmsupply workflow is the exact same as in the other vignettes, we continue to set up our model inputs and run the JAGS model. For demonstartion purposes, the model settings are set too low, the suggested settings are commented out in the code below.
We use this to evaluate the convergence of the model parameters. We should expect to see R-hat values of approximately 1.05. The plot function will give you a visual summary for each parameter monitored.
Using the ggplot2 and tidybayes R packages, we will check the trace plots to assess the convergence of individual parameters. We expect to see a ‘caterpillar’ like appearance of the chains over the iterations.
sample_draws <- tidybayes::tidy_draws(mod$JAGS$BUGSoutput$sims.matrix)
var <- sample_draws %>% dplyr::select(.chain, .iteration, .draw,`P[1,2,1]`) %>%
dplyr::mutate(chain = rep(1:2, each=mod$JAGS$BUGSoutput$n.keep)) %>%
dplyr::mutate(iteration = rep(1:mod$JAGS$BUGSoutput$n.keep, 2))
ggplot2::ggplot(data=var) +
ggplot2::geom_line(ggplot2::aes(x=iteration, y=`P[1,2,1]`, color=as.factor(chain)))
get_data
function.get_data
function