Carlos Trucíos, J. Mazzeu, L. K. Hotta, Pedro L. Valls Pereira, M. Hallin
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引用次数: 5
摘要
摘要在分析高维时间序列时,一般的动态因子模型已经证明了其规避维数诅咒的能力,并在许多经济和金融应用中得到了成功的考虑。然而,作为二阶模型,它们对异常值的存在很敏感——到目前为止,在可能具有无限维因素空间的动态因素的一般情况下,还没有分析过这个问题(Forni et al. 2000, 2015, 2017)。在本文中,我们考虑了这一鲁棒性问题,并研究了加性异常值对一般动态因子模型识别、估计和预测性能的影响。基于我们的发现,我们提出了识别、估计和预测程序的稳健版本。我们的方法的有限样本性能通过蒙特卡洛实验进行了评估,并成功地应用于115个美国宏观经济和金融时间序列的经典数据集。
Robustness and the General Dynamic Factor Model With Infinite-Dimensional Space: Identification, Estimation, and Forecasting
Abstract General dynamic factor models have demonstrated their capacity to circumvent the curse of dimensionality in the analysis of high-dimensional time series and have been successfully considered in many economic and financial applications. As second-order models, however, they are sensitive to the presence of outliers—an issue that has not been analyzed so far in the general case of dynamic factors with possibly infinite-dimensional factor spaces (Forni et al. 2000, 2015, 2017). In this paper, we consider this robustness issue and study the impact of additive outliers on the identification, estimation, and forecasting performance of general dynamic factor models. Based on our findings, we propose robust versions of identification, estimation, and forecasting procedures. The finite-sample performance of our methods is evaluated via Monte Carlo experiments and successfully applied to a classical data set of 115 US macroeconomic and financial time series.
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