Bayesian semiparametric model with spatially-temporally varying coefficients selectionopen access
- Authors
- Cai, Bo; Lawson, Andrew B.; Hossain, Md Monir; Choi, Jungsoon; Kirby, Russell S.; Liu, Jihong
- Issue Date
- Sep-2013
- Publisher
- John Wiley & Sons Inc.
- Keywords
- Area-specific Dirichlet process; Bayesian space-time models; Spatially-temporally varying coefficients; Variable selection
- Citation
- Statistics in Medicine, v.32, no.21, pp.3670 - 3685
- Indexed
- SCIE
SCOPUS
- Journal Title
- Statistics in Medicine
- Volume
- 32
- Number
- 21
- Start Page
- 3670
- End Page
- 3685
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/161914
- DOI
- 10.1002/sim.5789
- ISSN
- 0277-6715
- Abstract
- In spatiotemporal analysis, the effect of a covariate on the outcome usually varies across areas and time. The spatial configuration of the areas may potentially depend on not only the structured random intercept but also spatially varying coefficients of covariates. In addition, the normality assumption of the distribution of spatially varying coefficients could lead to potential biases of estimations. In this article, we proposed a Bayesian semiparametric space-time model where the spatially-temporally varying coefficient is decomposed as fixed, spatially varying, and temporally varying coefficients. We nonparametrically modeled the spatially varying coefficients of space-time covariates by using the area-specific Dirichlet process prior with weights transformed via a generalized transformation. We modeled the temporally varying coefficients of covariates through the dynamic model. We also took into account the uncertainty of inclusion of the spatially-temporally varying coefficients by variable selection procedure through determining the probabilities of different effects for each covariate. The proposed semiparametric approach shows its improvement compared with the Bayesian spatial-temporal models with normality assumption on spatial random effects and the Bayesian model with the Dirichlet process prior on the random intercept. We presented a simulation example to evaluate the performance of the proposed approach with the competing models. We used an application to low birth weight data in South Carolina as an illustration.
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