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Classical model selection via simulated annealing

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  • S. P. Brooks
  • N. Friel
  • R. King

Abstract

Summary. The classical approach to statistical analysis is usually based upon finding values for model parameters that maximize the likelihood function. Model choice in this context is often also based on the likelihood function, but with the addition of a penalty term for the number of parameters. Though models may be compared pairwise by using likelihood ratio tests for example, various criteria such as the Akaike information criterion have been proposed as alternatives when multiple models need to be compared. In practical terms, the classical approach to model selection usually involves maximizing the likelihood function associated with each competing model and then calculating the corresponding criteria value(s). However, when large numbers of models are possible, this quickly becomes infeasible unless a method that simultaneously maximizes over both parameter and model space is available. We propose an extension to the traditional simulated annealing algorithm that allows for moves that not only change parameter values but also move between competing models. This transdimensional simulated annealing algorithm can therefore be used to locate models and parameters that minimize criteria such as the Akaike information criterion, but within a single algorithm, removing the need for large numbers of simulations to be run. We discuss the implementation of the transdimensional simulated annealing algorithm and use simulation studies to examine its performance in realistically complex modelling situations. We illustrate our ideas with a pedagogic example based on the analysis of an autoregressive time series and two more detailed examples: one on variable selection for logistic regression and the other on model selection for the analysis of integrated recapture–recovery data.

Suggested Citation

  • S. P. Brooks & N. Friel & R. King, 2003. "Classical model selection via simulated annealing," Journal of the Royal Statistical Society Series B, Royal Statistical Society, vol. 65(2), pages 503-520, May.
    • Handle: RePEc:bla:jorssb:v:65:y:2003:i:2:p:503-520
    DOI: 10.1111/1467-9868.00399
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    Cited by:

    1. R. King & S. P. Brooks & B. J. T. Morgan & T. Coulson, 2006. "Factors Influencing Soay Sheep Survival: A Bayesian Analysis," Biometrics, The International Biometric Society, vol. 62(1), pages 211-220, March.
    2. Guarin, Alexander & Lozano, Ignacio, 2017. "Credit funding and banking fragility: A forecasting model for emerging economies," Emerging Markets Review, Elsevier, vol. 32(C), pages 168-189.
    3. Ignacio Lozano-Espitia & Alexander Guarín-López, 2015. "Fragilidad bancaria en Colombia: un análisis basado en las hojas de balance," Chapters, in: Jose E. Gomez-Gonzalez & Jair N. Ojeda-Joya (ed.), Política monetaria y estabilidad financiera en economías pequeñas y abiertas, chapter 10, pages 301-338, Banco de la Republica de Colombia.
    4. Alexander Guarín-López & Ignacio Lozano-Espitia, 2016. "Credit Funding and Banking Fragility: An Empirical Analysis for Emerging Economies," Borradores de Economia 14306, Banco de la Republica.
    5. Ricardo S. Ehlers & Stephen P. Brooks, 2008. "Adaptive Proposal Construction for Reversible Jump MCMC," Scandinavian Journal of Statistics, Danish Society for Theoretical Statistics;Finnish Statistical Society;Norwegian Statistical Association;Swedish Statistical Association, vol. 35(4), pages 677-690, December.
    6. Ignacio Lozano & Alexander Guarín, 2014. "Banking fragility in Colombia: An empirical analysis based on balance sheets," Revista ESPE - Ensayos Sobre Política Económica, Banco de la República, vol. 32(75), pages 48-63, December.
    7. Fleming, Christopher L. & Griffis, Stanley E. & Bell, John E., 2013. "The effects of triangle inequality on the vehicle routing problem," European Journal of Operational Research, Elsevier, vol. 224(1), pages 1-7.
    8. Fouskakis, D., 2012. "Bayesian variable selection in generalized linear models using a combination of stochastic optimization methods," European Journal of Operational Research, Elsevier, vol. 220(2), pages 414-422.
    9. Kapetanios, George & Marcellino, Massimiliano & Papailias, Fotis, 2016. "Forecasting inflation and GDP growth using heuristic optimisation of information criteria and variable reduction methods," Computational Statistics & Data Analysis, Elsevier, vol. 100(C), pages 369-382.
    10. Seya, Hajime & Yamagata, Yoshiki & Tsutsumi, Morito, 2013. "Automatic selection of a spatial weight matrix in spatial econometrics: Application to a spatial hedonic approach," Regional Science and Urban Economics, Elsevier, vol. 43(3), pages 429-444.
    11. Gustavo Nicolás Páez, 2015. "Prediciendo decisiones de agentes económicos: ¿Cómo determina el Banco de la República de Colombia la tasa de interés?," Documentos CEDE 12567, Universidad de los Andes, Facultad de Economía, CEDE.
    12. Zhenzhong Wang & Zhengyuan Zhu & Cindy Yu, 2020. "Variable Selection in Macroeconomic Forecasting with Many Predictors," Papers 2007.10160, arXiv.org.
    13. Christian P. Robert & Xiao‐Li Meng & Jesper Møller & Jeffrey S Rosenthal & C Jennison & M. A Hurn & F Al‐Awadhi & Peter McCullagh & Christophe Andrieu & Arnaud Doucet & Petros Dellaportas & Ioulia Pap, 2003. "Discussion on the paper by Brooks, Giudici and Roberts," Journal of the Royal Statistical Society Series B, Royal Statistical Society, vol. 65(1), pages 39-55, January.
    14. S. P. Brooks & P. Giudici & G. O. Roberts, 2003. "Efficient construction of reversible jump Markov chain Monte Carlo proposal distributions," Journal of the Royal Statistical Society Series B, Royal Statistical Society, vol. 65(1), pages 3-39, January.
    15. S. A. Sisson & Y. Fan, 2009. "Towards automating model selection for a mark–recapture–recovery analysis," Journal of the Royal Statistical Society Series C, Royal Statistical Society, vol. 58(2), pages 247-266, May.
    16. Manfred Gilli & Peter Winker, 2008. "Review of Heuristic Optimization Methods in Econometrics," Working Papers 001, COMISEF.
    17. Qian, Guoqi & Zhao, Xindong, 2007. "On time series model selection involving many candidate ARMA models," Computational Statistics & Data Analysis, Elsevier, vol. 51(12), pages 6180-6196, August.

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