Abstract
The use of large-dimensional factor models in forecasting has received much attention in the literature with the consensus being that improvements on forecasts can be achieved when comparing with standard models. However, recent contributions in the literature have demonstrated that care needs to be taken when choosing which variables to include in the model. A number of different approaches to determining these variables have been put forward. These are, however, often based on ad hoc procedures or abandon the underlying theoretical factor model. In this article, we will take a different approach to the problem by using the least absolute shrinkage and selection operator (LASSO) as a variable selection method to choose between the possible variables and thus obtain sparse loadings from which factors or diffusion indexes can be formed. This allows us to build a more parsimonious factor model that is better suited for forecasting compared to the traditional principal components (PC) approach. We provide an asymptotic analysis of the estimator and illustrate its merits empirically in a forecasting experiment based on U.S. macroeconomic data. Overall we find that compared to PC we obtain improvements in forecasting accuracy and thus find it to be an important alternative to PC. Supplementary materials for this article are available online.
Highlights
Many of the initial attempts at estimating factor models proposed in the literature were quite seriously limited in the amount of data they could handle
Overall we find that compared to principal components (PC) we obtain improvements in forecasting accuracy and find it to be an important alternative to PC
They argue that sparsity in the loadings could help in making the factors more interpretable. They do not provide any asymptotic justification for their approach. This paper provides both a theoretical and an empirical contribution; first we show that the sparse principal components (SPC) factor estimator is consistent under assumptions common to the macroeconomic forecasting literature, and that this estimator can be computed using the method of Shen and Huang (2008)
Summary
Many of the initial attempts at estimating factor models proposed in the literature were quite seriously limited in the amount of data they could handle. They do not provide any asymptotic justification for their approach This paper provides both a theoretical and an empirical contribution; first we show that the SPC factor estimator is consistent under assumptions common to the macroeconomic forecasting literature, and that this estimator can be computed using the method of Shen and Huang (2008). In addition to this we give a simple method for determining the number of factors using ridge regression.
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