Model selection for time series of count data

Naif  Alzahrani; Peter Neal; Simon E. F.  Spencer; Trevelyan J. McKinley; Panayiota Touloupou

doi:10.1016/j.csda.2018.01.002

Model selection for time series of count data

Naif Alzahrani, Peter Neal, Simon E. F. Spencer, Trevelyan J. McKinley, Panayiota Touloupou

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

11 Citations (Scopus)

Abstract

Selecting between competing statistical models is a challenging problem especially when the competing models are non-nested. An effective algorithm is developed in a Bayesian framework for selecting between a parameter-driven autoregressive Poisson regression model and an observation-driven integer valued autoregressive model when modelling time series count data. In order to achieve this a particle MCMC algorithm for the autoregressive Poisson regression model is introduced. The particle filter underpinning the particle MCMC algorithm plays a key role in estimating the marginal likelihood of the autoregressive Poisson regression model via importance sampling and is also utilised to estimate the DIC. The performance of the model selection algorithms are assessed via a simulation study. Two real-life data sets, monthly US polio cases (1970–1983) and monthly benefit claims from the logging industry to the British Columbia Workers Compensation Board (1985–1994) are successfully analysed.

Original language	English
Journal	Computational Statistics & Data Analysis
DOIs	https://doi.org/10.1016/j.csda.2018.01.002
Publication status	Published - 1 Jun 2018
Externally published	Yes

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10.1016/j.csda.2018.01.002

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title = "Model selection for time series of count data",

abstract = "Selecting between competing statistical models is a challenging problem especially when the competing models are non-nested. An effective algorithm is developed in a Bayesian framework for selecting between a parameter-driven autoregressive Poisson regression model and an observation-driven integer valued autoregressive model when modelling time series count data. In order to achieve this a particle MCMC algorithm for the autoregressive Poisson regression model is introduced. The particle filter underpinning the particle MCMC algorithm plays a key role in estimating the marginal likelihood of the autoregressive Poisson regression model via importance sampling and is also utilised to estimate the DIC. The performance of the model selection algorithms are assessed via a simulation study. Two real-life data sets, monthly US polio cases (1970–1983) and monthly benefit claims from the logging industry to the British Columbia Workers Compensation Board (1985–1994) are successfully analysed.",

author = "Naif Alzahrani and Peter Neal and Spencer, {Simon E. F.} and McKinley, {Trevelyan J.} and Panayiota Touloupou",

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AU - Alzahrani, Naif

AU - Neal, Peter

AU - Spencer, Simon E. F.

AU - McKinley, Trevelyan J.

AU - Touloupou, Panayiota

PY - 2018/6/1

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N2 - Selecting between competing statistical models is a challenging problem especially when the competing models are non-nested. An effective algorithm is developed in a Bayesian framework for selecting between a parameter-driven autoregressive Poisson regression model and an observation-driven integer valued autoregressive model when modelling time series count data. In order to achieve this a particle MCMC algorithm for the autoregressive Poisson regression model is introduced. The particle filter underpinning the particle MCMC algorithm plays a key role in estimating the marginal likelihood of the autoregressive Poisson regression model via importance sampling and is also utilised to estimate the DIC. The performance of the model selection algorithms are assessed via a simulation study. Two real-life data sets, monthly US polio cases (1970–1983) and monthly benefit claims from the logging industry to the British Columbia Workers Compensation Board (1985–1994) are successfully analysed.

AB - Selecting between competing statistical models is a challenging problem especially when the competing models are non-nested. An effective algorithm is developed in a Bayesian framework for selecting between a parameter-driven autoregressive Poisson regression model and an observation-driven integer valued autoregressive model when modelling time series count data. In order to achieve this a particle MCMC algorithm for the autoregressive Poisson regression model is introduced. The particle filter underpinning the particle MCMC algorithm plays a key role in estimating the marginal likelihood of the autoregressive Poisson regression model via importance sampling and is also utilised to estimate the DIC. The performance of the model selection algorithms are assessed via a simulation study. Two real-life data sets, monthly US polio cases (1970–1983) and monthly benefit claims from the logging industry to the British Columbia Workers Compensation Board (1985–1994) are successfully analysed.

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JO - Computational Statistics & Data Analysis

JF - Computational Statistics & Data Analysis

ER -

Model selection for time series of count data

Abstract

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