% Generated by roxygen2: do not edit by hand % Please edit documentation in R/twa.R \name{one_box} \alias{one_box} \alias{one_box.numeric} \alias{one_box.character} \alias{one_box.mkinfit} \title{Create a time series of decline data} \usage{ one_box(x, ini, ..., t_end = 100, res = 0.01) \method{one_box}{numeric}(x, ini = 1, ..., t_end = 100, res = 0.01) \method{one_box}{character}(x, ini = 1, parms, ..., t_end = 100, res = 0.01) \method{one_box}{mkinfit}(x, ini = c("model", 1), ..., t_end = 100, res = 0.01) } \arguments{ \item{x}{When numeric, this is the half-life to be used for an exponential decline. If x is an mkinfit object, the decline is calculated from this object} \item{ini}{The initial amount for each compound} \item{...}{Further arguments passed to methods} \item{t_end}{End of the time series} \item{res}{Resolution of the time series} \item{parms}{A named numeric vector containing the model parameters} } \description{ The time series starts with the amount specified for the first application. This does not create objects of type \code{\link{ts}}. } \examples{ # Only use a half-life pred_0 <- one_box(10) plot(pred_0) # Use a fitted mkinfit model require(mkin) fit <- mkinfit("FOMC", FOCUS_2006_C, quiet = TRUE) pred_1 <- one_box(fit) plot(pred_1) # Use a model with more than one observed variable m_2 <- mkinmod(parent = mkinsub("SFO", "m1"), m1 = mkinsub("SFO")) fit_2 <- mkinfit(m_2, FOCUS_2006_D, quiet = TRUE) pred_2 <- one_box(fit_2, ini = "model") plot(pred_2) }