English

Sparse structures with LASSO through Principal Components: forecasting GDP components in the short-run

Econometrics 2020-10-29 v2

Abstract

This paper aims to examine the use of sparse methods to forecast the real, in the chain-linked volume sense, expenditure components of the US and EU GDP in the short-run sooner than the national institutions of statistics officially release the data. We estimate current quarter nowcasts along with 1- and 2-quarter forecasts by bridging quarterly data with available monthly information announced with a much smaller delay. We solve the high-dimensionality problem of the monthly dataset by assuming sparse structures of leading indicators, capable of adequately explaining the dynamics of analyzed data. For variable selection and estimation of the forecasts, we use the sparse methods - LASSO together with its recent modifications. We propose an adjustment that combines LASSO cases with principal components analysis that deemed to improve the forecasting performance. We evaluate forecasting performance conducting pseudo-real-time experiments for gross fixed capital formation, private consumption, imports and exports over the sample of 2005-2019, compared with benchmark ARMA and factor models. The main results suggest that sparse methods can outperform the benchmarks and to identify reasonable subsets of explanatory variables. The proposed LASSO-PC modification show further improvement in forecast accuracy.

Keywords

Cite

@article{arxiv.1906.07992,
  title  = {Sparse structures with LASSO through Principal Components: forecasting GDP components in the short-run},
  author = {Saulius Jokubaitis and Dmitrij Celov and Remigijus Leipus},
  journal= {arXiv preprint arXiv:1906.07992},
  year   = {2020}
}

Comments

Major update of the previous version: updated results, more benchmark models, inclusion of EU countries. Keywords: nowcasting, LASSO, adaptive LASSO, relaxed LASSO, principal components analysis, variable selection, GDP components; JEL Codes: C13, C38, C52, C53, C55

R2 v1 2026-06-23T09:57:47.920Z