CARBayes-package: Spatial Generalised Linear Mixed Models for Areal Unit Data
In duncanplee/CARBayes: Spatial Generalised Linear Mixed Models for Areal Unit Data
Description
Details
Author(s)
References
Examples
Description
Implements a class of univariate and multivariate spatial generalised linear mixed
models for areal unit data, with inference in a Bayesian setting using Markov chain
Monte Carlo (MCMC) simulation. The response variable can be binomial, Gaussian,
multinomial, Poisson or zero-inflated Poisson (ZIP), and spatial autocorrelation
is modelled by a set of random effects that are assigned a conditional
autoregressive (CAR) prior distribution. A number of different models are
available for univariate spatial data, including models with no random effects as
well as random effects modelled by different types of CAR prior, including the
BYM model (Besag et al. (1991) <doi:10.1007/BF00116466>), the Leroux model
(Leroux et al. (2000) <doi:10.1007/978-1-4612-1284-3_4>) and the localised model
(Lee et al. (2015) <doi:10.1002/env.2348>). Additionally, a multivariate CAR
(MCAR) model for multivariate spatial data is available, as is a two-level
hierarchical model for modelling data relating to individuals within areas. Full
details are given in the vignette accompanying this package. The initial creation
of this package was supported by the Economic and Social Research Council (ESRC)
grant RES-000-22-4256, and on-going development has been supported by the
Engineering and Physical Science Research Council (EPSRC) grant EP/J017442/1, ESRC
grant ES/K006460/1, Innovate UK / Natural Environment Research Council (NERC)
grant NE/N007352/1 and the TB Alliance.
Details
Package: CARBayes
Type: Package
Version: 5.2.5
Date: 2021-09-30
License: GPL (>= 2)
Author(s)
Maintainer: Duncan Lee <Duncan.Lee@glasgow.ac.uk>
References
Besag, J. and York, J and Mollie, A (1991). Bayesian image restoration with two
applications in spatial statistics. Annals of the Institute of Statistics and
Mathematics 43, 1-59.
Gelfand, A and Vounatsou, P (2003). Proper multivariate conditional autoregressive
models for spatial data analysis, Biostatistics, 4, 11-25.
Kavanagh, L., D. Lee, and G. Pryce (2016). Is Poverty Decentralising? Quantifying
Uncertainty in the Decentralisation of Urban Poverty, Annals of the American
Association of Geographers, 106, 1286-1298.
Lee, D. and Mitchell, R (2012). Boundary detection in disease mapping studies.
Biostatistics, 13, 415-426.
Lee, D and Sarran, C (2015). Controlling for unmeasured confounding and spatial
misalignment in long-term air pollution and health studies, Environmetrics, 26,
477-487.
Leroux B, Lei X, Breslow N (2000). "Estimation of Disease Rates in SmallAreas: A
New Mixed Model for Spatial Dependence." In M Halloran, D Berry (eds.),
Statistical Models in Epidemiology, the Environment and Clinical Trials,
pp. 179-191. Springer-Verlag, New York.
Roberts, G and Rosenthal, J (1998). Optimal scaling of discrete approximations to
the Langevin diffusions, Journal of the Royal Statistical Society Series B 60,
255-268.
Examples
1
2
## See the examples in the function specific help files and in the vignette
## accompanying this package.
duncanplee/CARBayes documentation built on Oct. 3, 2021, 4:10 p.m.
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Description Details Author(s) References Examples
Description
Implements a class of univariate and multivariate spatial generalised linear mixed models for areal unit data, with inference in a Bayesian setting using Markov chain Monte Carlo (MCMC) simulation. The response variable can be binomial, Gaussian, multinomial, Poisson or zero-inflated Poisson (ZIP), and spatial autocorrelation is modelled by a set of random effects that are assigned a conditional autoregressive (CAR) prior distribution. A number of different models are available for univariate spatial data, including models with no random effects as well as random effects modelled by different types of CAR prior, including the BYM model (Besag et al. (1991) <doi:10.1007/BF00116466>), the Leroux model (Leroux et al. (2000) <doi:10.1007/978-1-4612-1284-3_4>) and the localised model (Lee et al. (2015) <doi:10.1002/env.2348>). Additionally, a multivariate CAR (MCAR) model for multivariate spatial data is available, as is a two-level hierarchical model for modelling data relating to individuals within areas. Full details are given in the vignette accompanying this package. The initial creation of this package was supported by the Economic and Social Research Council (ESRC) grant RES-000-22-4256, and on-going development has been supported by the Engineering and Physical Science Research Council (EPSRC) grant EP/J017442/1, ESRC grant ES/K006460/1, Innovate UK / Natural Environment Research Council (NERC) grant NE/N007352/1 and the TB Alliance.
Details
| Package: | CARBayes |
| Type: | Package |
| Version: | 5.2.5 |
| Date: | 2021-09-30 |
| License: | GPL (>= 2) |
Author(s)
Maintainer: Duncan Lee <Duncan.Lee@glasgow.ac.uk>
References
Besag, J. and York, J and Mollie, A (1991). Bayesian image restoration with two applications in spatial statistics. Annals of the Institute of Statistics and Mathematics 43, 1-59.
Gelfand, A and Vounatsou, P (2003). Proper multivariate conditional autoregressive models for spatial data analysis, Biostatistics, 4, 11-25.
Kavanagh, L., D. Lee, and G. Pryce (2016). Is Poverty Decentralising? Quantifying Uncertainty in the Decentralisation of Urban Poverty, Annals of the American Association of Geographers, 106, 1286-1298.
Lee, D. and Mitchell, R (2012). Boundary detection in disease mapping studies. Biostatistics, 13, 415-426.
Lee, D and Sarran, C (2015). Controlling for unmeasured confounding and spatial misalignment in long-term air pollution and health studies, Environmetrics, 26, 477-487.
Leroux B, Lei X, Breslow N (2000). "Estimation of Disease Rates in SmallAreas: A New Mixed Model for Spatial Dependence." In M Halloran, D Berry (eds.), Statistical Models in Epidemiology, the Environment and Clinical Trials, pp. 179-191. Springer-Verlag, New York.
Roberts, G and Rosenthal, J (1998). Optimal scaling of discrete approximations to the Langevin diffusions, Journal of the Royal Statistical Society Series B 60, 255-268.
Examples
1 2 | ## See the examples in the function specific help files and in the vignette
## accompanying this package.
|
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