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I want to ask the following practical forecasting question. Very often we are asked to create a model for forecasting a series (usually an index). Now I am aware that when one uses time series analysis or regression analysis one has to be careful that the series is stationary (otherwise one might have the well-known spurious regression problem). So practically what one does is to difference the non-stationary series (or detrend it or take logs etc.) until one has achieved stationarity.

Ok so far so good. So practically now I was asked to forecast some indexes (some are non-stationary, some are border non-stationary and some are stationary). Now let's say I would like for arguments sake to use the theta method to forecast (lets for the moment forget if this is the appropriate method or not). Let's call the series we want to model (y). Now it is super easy to create some simple forecasts in R with the following code using the pipe (%>%) operator:

library(ggplot2)
library(forecast)
library(forecTheta) 

Create test and train set

train_end <- length(y)- fc_horizon
train <- subset(y, end = train_end)
test <- subset(y, start = train_end +1)

When one uses levels

Compute theta forecasts and save to theta_fc

fc_theta <- thetaf(train, h = fc_horizon)
fc_theta %>%
  autoplot() + autolayer(test)

When one uses first differences

fc_theta_diff <- thetaf(diff(train), h = fc_horizon)
fc_theta_diff %>%
  autoplot() + autolayer(diff(test))

But here comes the problem. In the first method we are forecasting levels and in the second we are forecasting the first differences. What I am really interested in are obviously the level of the indices. OK so one would say no problem just undo the differencing with the use of the cumsum function or diffinv function and get the forecast in levels:

Use last observation and then cum sum the differences to get the forecasts on levels

fc_theta_cum <- cumsum(c(y[n], fc_theta_diff $mean))

drop first observation

fc_theta_cum <- fc_theta_cum [2:length( fc_theta_cum )]

make time series object

fc_theta_cum <- ts( fc_theta_cum , start =start_year, frequency= frequency_series)

plot series and the reconstructed forecast in levels

fc_theta_cum %>%
  autoplot() + autolayer(test)

But here is the twist by doing this I only get the point forecasts whereas with the forecast function I get an object which has much richer information (such as the prediction intervals, mean, residuals, method, etc.). Is there a "quick way" to transform a forecast object of differences to a forecast object of levels and keeping all this rich information (such as the prediction intervals, mean, residuals, method, etc.). The auto.arima function of R does this automatically if the data need to differenced to achieve stationarity but for other forecasting methods it is not clear to me how this can be done quickly without painfully reconstructing all this information.

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