comb_TA {GeomComb}R Documentation

Trimmed Mean Forecast Combination

Description

Computes a ‘combined forecast’ from a pool of individual model forecasts using trimmed mean at each point in time.

Usage

comb_TA(x, trim_factor = NULL, criterion = "RMSE")

Arguments

x

An object of class foreccomb. Contains training set (actual values + matrix of model forecasts) and optionally a test set.

trim_factor

numeric. Must be between 0 (simple average) and 0.5 (median).

criterion

If trim_factor is not specified, an optimization criterion for automated trimming needs to be defined. One of "MAE", "MAPE", or "RMSE" (default).

Details

Suppose y_t is the variable of interest, there are N not perfectly collinear predictors, \mathbf{f}_t = (f_{1t}, \ldots, f_{Nt})'. For each point in time, the order forecasts are computed:

\mathbf{f}_t^{ord} = (f_{(1)t}, \ldots, f_{(N)t})'

Using a trim factor \lambda (i.e., the top/bottom \lambda \% are trimmed) the combined forecast is calculated as:

\hat{y}_t = \frac{1}{N(1-2\lambda)} \sum_{i = \lambda N +1}^{(1-\lambda)N} f_{(i)t}

The trimmed mean is an interpolation between the simple average and the median. It is an appealing simple, rank-based combination method that is less sensitive to outliers than the simple average approach, and has been proposed by authors such as Armstrong (2001), Stock and Watson (2004), and Jose and Winkler (2008).

This method allows the user to select \lambda (by specifying trim_factor), or to leave the selection to an optimization algorithm – in which case the optimization criterion has to be selected (one of "MAE", "MAPE", or "RMSE").

Value

Returns an object of class foreccomb_res with the following components:

Method

Returns the used forecast combination method.

Models

Returns the individual input models that were used for the forecast combinations.

Weights

Returns the combination weights obtained by applying the combination method to the training set.

Trim Factor

Returns the trim factor, \lambda.

Fitted

Returns the fitted values of the combination method for the training set.

Accuracy_Train

Returns range of summary measures of the forecast accuracy for the training set.

Forecasts_Test

Returns forecasts produced by the combination method for the test set. Only returned if input included a forecast matrix for the test set.

Accuracy_Test

Returns range of summary measures of the forecast accuracy for the test set. Only returned if input included a forecast matrix and a vector of actual values for the test set.

Input_Data

Returns the data forwarded to the method.

Author(s)

Christoph E. Weiss and Gernot R. Roetzer

References

Armstrong, J. S. (2001). Combining Forecasts. In: Armstrong, J. S. (Ed.), Principles of Forecasting. Springer, Boston, MA, 417–439.

Jose, V. R. R., and Winkler, R. L. (2008). Simple Robust Averages of Forecasts: Some Empirical Results. International Journal of Forecasting, 24(1), 163–169.

Stock, J. H., and Watson, M. W. (2004). Combination Forecasts of Output Growth in a Seven-Country Data Set. Journal of Forecasting, 23(6), 405–430.

See Also

foreccomb, plot.foreccomb_res, summary.foreccomb_res, comb_SA, comb_MED, accuracy

Examples

obs <- rnorm(100)
preds <- matrix(rnorm(1000, 1), 100, 10)
train_o<-obs[1:80]
train_p<-preds[1:80,]
test_o<-obs[81:100]
test_p<-preds[81:100,]

## User-selected trim factor:
data<-foreccomb(train_o, train_p, test_o, test_p)
comb_TA(data, trim_factor=0.1)

## Algorithm-optimized trim factor:
data<-foreccomb(train_o, train_p, test_o, test_p)
comb_TA(data, criterion="RMSE")


[Package GeomComb version 1.0 Index]