Latent mixture modeling for clustered data

Shonosuke Sugasawa; Genya Kobayashi; Yuki Kawakubo

doi:10.1007/s11222-018-9821-7

Latent mixture modeling for clustered data

Shonosuke Sugasawa, Genya Kobayashi, Yuki Kawakubo

Research output: Contribution to journal › Article › peer-review

Abstract

This article proposes a mixture modeling approach to estimating cluster-wise conditional distributions in clustered (grouped) data. We adapt the mixture-of-experts model to the latent distributions, and propose a model in which each cluster-wise density is represented as a mixture of latent experts with cluster-wise mixing proportions distributed as Dirichlet distribution. The model parameters are estimated by maximizing the marginal likelihood function using a newly developed Monte Carlo Expectation–Maximization algorithm. We also extend the model such that the distribution of cluster-wise mixing proportions depends on some cluster-level covariates. The finite sample performance of the proposed model is compared with some existing mixture modeling approaches as well as mixed effects models through the simulation studies. The proposed model is also illustrated with the posted land price data in Japan.

Original language	English
Pages (from-to)	537-548
Number of pages	12
Journal	Statistics and Computing
Volume	29
Issue number	3
DOIs	https://doi.org/10.1007/s11222-018-9821-7
Publication status	Published - 2019 May 1
Externally published	Yes

Keywords

Conditional distribution
Hierarchical model
Mixture modeling
Monte Carlo EM algorithm
Random effect

ASJC Scopus subject areas

Theoretical Computer Science
Statistics and Probability
Statistics, Probability and Uncertainty
Computational Theory and Mathematics

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10.1007/s11222-018-9821-7

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title = "Latent mixture modeling for clustered data",

abstract = "This article proposes a mixture modeling approach to estimating cluster-wise conditional distributions in clustered (grouped) data. We adapt the mixture-of-experts model to the latent distributions, and propose a model in which each cluster-wise density is represented as a mixture of latent experts with cluster-wise mixing proportions distributed as Dirichlet distribution. The model parameters are estimated by maximizing the marginal likelihood function using a newly developed Monte Carlo Expectation–Maximization algorithm. We also extend the model such that the distribution of cluster-wise mixing proportions depends on some cluster-level covariates. The finite sample performance of the proposed model is compared with some existing mixture modeling approaches as well as mixed effects models through the simulation studies. The proposed model is also illustrated with the posted land price data in Japan.",

keywords = "Conditional distribution, Hierarchical model, Mixture modeling, Monte Carlo EM algorithm, Random effect",

author = "Shonosuke Sugasawa and Genya Kobayashi and Yuki Kawakubo",

note = "Funding Information: Acknowledgements This work was supported by JSPS KAKENHI Grant Nos. [16H07406, 15K17036, 16K17101, 18K12754, 18K12757]. The computational results were obtained using Ox version 6.21 (Doornik 2007). Funding Information: This work was supported by JSPS KAKENHI Grant Nos. [16H07406, 15K17036, 16K17101, 18K12754, 18K12757]. The computational results were obtained using Ox version?6.21 (Doornik 2007). Publisher Copyright: {\textcopyright} 2018, Springer Science+Business Media, LLC, part of Springer Nature.",

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doi = "10.1007/s11222-018-9821-7",

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AU - Sugasawa, Shonosuke

AU - Kobayashi, Genya

AU - Kawakubo, Yuki

N1 - Funding Information: Acknowledgements This work was supported by JSPS KAKENHI Grant Nos. [16H07406, 15K17036, 16K17101, 18K12754, 18K12757]. The computational results were obtained using Ox version 6.21 (Doornik 2007). Funding Information: This work was supported by JSPS KAKENHI Grant Nos. [16H07406, 15K17036, 16K17101, 18K12754, 18K12757]. The computational results were obtained using Ox version?6.21 (Doornik 2007). Publisher Copyright: © 2018, Springer Science+Business Media, LLC, part of Springer Nature.

PY - 2019/5/1

Y1 - 2019/5/1

N2 - This article proposes a mixture modeling approach to estimating cluster-wise conditional distributions in clustered (grouped) data. We adapt the mixture-of-experts model to the latent distributions, and propose a model in which each cluster-wise density is represented as a mixture of latent experts with cluster-wise mixing proportions distributed as Dirichlet distribution. The model parameters are estimated by maximizing the marginal likelihood function using a newly developed Monte Carlo Expectation–Maximization algorithm. We also extend the model such that the distribution of cluster-wise mixing proportions depends on some cluster-level covariates. The finite sample performance of the proposed model is compared with some existing mixture modeling approaches as well as mixed effects models through the simulation studies. The proposed model is also illustrated with the posted land price data in Japan.

AB - This article proposes a mixture modeling approach to estimating cluster-wise conditional distributions in clustered (grouped) data. We adapt the mixture-of-experts model to the latent distributions, and propose a model in which each cluster-wise density is represented as a mixture of latent experts with cluster-wise mixing proportions distributed as Dirichlet distribution. The model parameters are estimated by maximizing the marginal likelihood function using a newly developed Monte Carlo Expectation–Maximization algorithm. We also extend the model such that the distribution of cluster-wise mixing proportions depends on some cluster-level covariates. The finite sample performance of the proposed model is compared with some existing mixture modeling approaches as well as mixed effects models through the simulation studies. The proposed model is also illustrated with the posted land price data in Japan.

KW - Conditional distribution

KW - Hierarchical model

KW - Mixture modeling

KW - Monte Carlo EM algorithm

KW - Random effect

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Latent mixture modeling for clustered data

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Keywords

ASJC Scopus subject areas

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