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ABSTRACT
This technical note proposes a novel profile likelihood method for estimating the covariance parameters in exploratory factor analysis of high-dimensional Gaussian datasets with fewer observations than number of variables. An implicitly restarted Lanczos algorithm and a limited-memory quasi-Newton method are implemented to develop a matrix-free framework for likelihood maximization. Simulation results show that our method is substantially faster than the expectation-maximization solution without sacrificing accuracy. Our method is applied to fit factor models on data from suicide attempters, suicide ideators, and a control group. Supplementary materials for this article are available online.
Acknowledgments
We thank the editor and the associate editor for their helpful comments that improved the presentation of the article. An earlier version of this article won, the first author, a Student Poster Competition award at the 2nd Midwest Statistical Machine Learning Colloquium and a 2020 Student Paper Competition award from the ASA Section on Statistical Computing.
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