Improved confidence intervals for finite mixture regression based on resampling techniques
Griesbach C, Hepp T (2025)
Publication Type: Journal article
Publication year: 2025
Journal
DOI: 10.1007/s00180-025-01654-x
Abstract
Finite Mixture Regression is a popular approach for regression settings with present but unobserved sub-populations. Over the past decades an extensive toolbox has been developed covering various kinds of distributions and effect types. As for any other thorough statistical analysis, reporting of e.g. confidence intervals for the parameters of the latent models is of high practical relevance. However, standard theory neglects the additional variability arising from also estimating class assignments, which consequently leads to the corresponding uncertainty estimates usually being too optimistic. In this work we propose an alternative resampling technique to construct confidence intervals for the regression coefficients of finite mixture regression models. The routine relies on bootstrapping which already proved useful for different problems arising for mixture models in the past and is evaluated via various simulation studies and two real world applications. Overall, the routine performs consistently better in terms of holding the type-I error threshold and is less computationally expensive than alternative approaches.
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Germany (DE)How to cite
APA:
Griesbach, C., & Hepp, T. (2025). Improved confidence intervals for finite mixture regression based on resampling techniques. Computational Statistics. https://doi.org/10.1007/s00180-025-01654-x
MLA:
Griesbach, Colin, and Tobias Hepp. "Improved confidence intervals for finite mixture regression based on resampling techniques." Computational Statistics (2025).
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