Please use this identifier to cite or link to this item: https://doi.org/10.1080/07350015.2020.1811101
Title: Large-Dimensional Factor Analysis Without Moment Constraints
Authors: He, Yong
Kong, Xinbing
Yu, Long 
Zhang, Xinsheng
Keywords: Social Sciences
Science & Technology
Physical Sciences
Economics
Social Sciences, Mathematical Methods
Statistics & Probability
Business & Economics
Mathematical Methods In Social Sciences
Mathematics
Elliptical factor model
Multivariate Kendall's tau matrix
Ordinary least square regression
LARGE COVARIANCE ESTIMATION
FACTOR MODELS
RATIO TEST
NUMBER
Issue Date: 11-Sep-2020
Publisher: AMER STATISTICAL ASSOC
Citation: He, Yong, Kong, Xinbing, Yu, Long, Zhang, Xinsheng (2020-09-11). Large-Dimensional Factor Analysis Without Moment Constraints. JOURNAL OF BUSINESS & ECONOMIC STATISTICS. ScholarBank@NUS Repository. https://doi.org/10.1080/07350015.2020.1811101
Abstract: Large-dimensional factor model has drawn much attention in the big-data era, in order to reduce the dimensionality and extract underlying features using a few latent common factors. Conventional methods for estimating the factor model typically requires finite fourth moment of the data, which ignores the effect of heavy-tailedness and thus may result in unrobust or even inconsistent estimation of the factor space and common components. In this paper, we propose to recover the factor space by performing principal component analysis to the spatial Kendall's tau matrix instead of the sample covariance matrix. In a second step, we estimate the factor scores by the ordinary least square (OLS) regression. Theoretically, we show that under the elliptical distribution framework the factor loadings and scores as well as the common components can be estimated consistently without any moment constraint. The convergence rates of the estimated factor loadings, scores and common components are provided. The finite sample performance of the proposed procedure is assessed through thorough simulations. An analysis of a financial data set of asset returns shows the superiority of the proposed method over the classical PCA method.
Source Title: JOURNAL OF BUSINESS & ECONOMIC STATISTICS
URI: https://scholarbank.nus.edu.sg/handle/10635/191965
ISSN: 0735-0015
1537-2707
DOI: 10.1080/07350015.2020.1811101
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