Robust variable selection for finite mixture regression models.
- Resource Type
- Article
- Authors
- Tang, Qingguo; Karunamuni, R. J.
- Source
- Annals of the Institute of Statistical Mathematics. Jun2018, Vol. 70 Issue 3, p489-521. 33p.
- Subject
- *FINITE mixture models (Statistics)
*LIKELIHOOD ratio tests
*REGRESSION analysis
*STRUCTURAL equation modeling
*MONTE Carlo method
- Language
- ISSN
- 0020-3157
Finite mixture regression (FMR) models are frequently used in statistical modeling, often with many covariates with low significance. Variable selection techniques can be employed to identify the covariates with little influence on the response. The problem of variable selection in FMR models is studied here. Penalized likelihood-based approaches are sensitive to data contamination, and their efficiency may be significantly reduced when the model is slightly misspecified. We propose a new robust variable selection procedure for FMR models. The proposed method is based on minimum-distance techniques, which seem to have some automatic robustness to model misspecification. We show that the proposed estimator has the variable selection consistency and oracle property. The finite-sample breakdown point of the estimator is established to demonstrate its robustness. We examine small-sample and robustness properties of the estimator using a Monte Carlo study. We also analyze a real data set. [ABSTRACT FROM AUTHOR]