Independence, successive and conditional likelihood for time series of counts

Helle Sørensen

doi:10.1016/j.jspi.2018.09.002

Independence, successive and conditional likelihood for time series of counts

Institut for Matematiske Fag

Abstract

Serial correlation and overdispersion must be handled properly in analyses of time series of counts, and parameter-driven models combine an underlying latent process with a conditional log-linear Poisson model (given the latent process) for that purpose. Regression coefficients have direct interpretations, but likelihood inference is not straight-forward. We consider a two-step procedure for estimation: First regression parameters are estimated from the marginal distribution; second parameters concerning the latent process are estimated with composite likelihood methods, based on low-order simultaneous or conditional distributions. Confidence intervals are computed by bootstrap. Properties of estimators are examined and compared to other methods in three simulation studies, and the methods are applied to two datasets from the literature concerning hospital admission related to asthma and traffic deaths.

Originalsprog	Engelsk
Tidsskrift	Journal of Statistical Planning and Inference
Vol/bind	200
Sider (fra-til)	20-31
ISSN	0378-3758
DOI	https://doi.org/10.1016/j.jspi.2018.09.002
Status	Udgivet - 2019

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10.1016/j.jspi.2018.09.002

HelleSørensen-countAccepteret manuskript, 354 KBLicens: CC BY-NC-ND

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T1 - Independence, successive and conditional likelihood for time series of counts

AU - Sørensen, Helle

PY - 2019

Y1 - 2019

N2 - Serial correlation and overdispersion must be handled properly in analyses of time series of counts, and parameter-driven models combine an underlying latent process with a conditional log-linear Poisson model (given the latent process) for that purpose. Regression coefficients have direct interpretations, but likelihood inference is not straight-forward. We consider a two-step procedure for estimation: First regression parameters are estimated from the marginal distribution; second parameters concerning the latent process are estimated with composite likelihood methods, based on low-order simultaneous or conditional distributions. Confidence intervals are computed by bootstrap. Properties of estimators are examined and compared to other methods in three simulation studies, and the methods are applied to two datasets from the literature concerning hospital admission related to asthma and traffic deaths.

AB - Serial correlation and overdispersion must be handled properly in analyses of time series of counts, and parameter-driven models combine an underlying latent process with a conditional log-linear Poisson model (given the latent process) for that purpose. Regression coefficients have direct interpretations, but likelihood inference is not straight-forward. We consider a two-step procedure for estimation: First regression parameters are estimated from the marginal distribution; second parameters concerning the latent process are estimated with composite likelihood methods, based on low-order simultaneous or conditional distributions. Confidence intervals are computed by bootstrap. Properties of estimators are examined and compared to other methods in three simulation studies, and the methods are applied to two datasets from the literature concerning hospital admission related to asthma and traffic deaths.

KW - Bootstrap

KW - Composite likelihood

KW - Generalized linear mixed model

KW - Overdispersion

KW - Serial correlation

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DO - 10.1016/j.jspi.2018.09.002

M3 - Journal article

AN - SCOPUS:85054051567

SN - 0378-3758

VL - 200

SP - 20

EP - 31

JO - Journal of Statistical Planning and Inference

JF - Journal of Statistical Planning and Inference

ER -

Independence, successive and conditional likelihood for time series of counts

Abstract

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