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Bayesian demography 250 years after Bayes

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  • Jakub Bijak
  • John Bryant

Abstract

Bayesian statistics offers an alternative to classical (frequentist) statistics. It is distinguished by its use of probability distributions to describe uncertain quantities, which leads to elegant solutions to many difficult statistical problems. Although Bayesian demography, like Bayesian statistics more generally, is around 250 years old, only recently has it begun to flourish. The aim of this paper is to review the achievements of Bayesian demography, address some misconceptions, and make the case for wider use of Bayesian methods in population studies. We focus on three applications: demographic forecasts, limited data, and highly structured or complex models. The key advantages of Bayesian methods are the ability to integrate information from multiple sources and to describe uncertainty coherently. Bayesian methods also allow for including additional (prior) information next to the data sample. As such, Bayesian approaches are complementary to many traditional methods, which can be productively re-expressed in Bayesian terms.

Suggested Citation

  • Jakub Bijak & John Bryant, 2016. "Bayesian demography 250 years after Bayes," Population Studies, Taylor & Francis Journals, vol. 70(1), pages 1-19, March.
    • Handle: RePEc:taf:rpstxx:v:70:y:2016:i:1:p:1-19
    DOI: 10.1080/00324728.2015.1122826
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    References listed on IDEAS

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    1. Carl Schmertmann, 2012. "Calibrated spline estimation of detailed fertility schedules from abridged data," MPIDR Working Papers WP-2012-022, Max Planck Institute for Demographic Research, Rostock, Germany.
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    Cited by:

    1. Rachel S. Franklin & Jacques Poot, 2021. "Guest Editorial: Spatial demography in regional science," Journal of Geographical Systems, Springer, vol. 23(2), pages 139-141, April.
    2. Nico Keilman, 2018. "Probabilistic demographic forecasts," Vienna Yearbook of Population Research, Vienna Institute of Demography (VID) of the Austrian Academy of Sciences in Vienna, vol. 16(1), pages 025-035.
    3. Beata Osiewalska, 2017. "Childlessness and fertility by couples' educational gender (in)equality in Austria, Bulgaria, and France," Demographic Research, Max Planck Institute for Demographic Research, Rostock, Germany, vol. 37(12), pages 325-362.
    4. Nico Keilman, 2020. "Evaluating Probabilistic Population Forecasts," Economie et Statistique / Economics and Statistics, Institut National de la Statistique et des Etudes Economiques (INSEE), issue 520-521, pages 49-64.
    5. Bijak Jakub & Bryant Johan & Gołata Elżbieta & Smallwood Steve, 2021. "Preface," Journal of Official Statistics, Sciendo, vol. 37(3), pages 533-541, September.
    6. Monica Alexander & Leontine Alkema, 2018. "Global estimation of neonatal mortality using a Bayesian hierarchical splines regression model," Demographic Research, Max Planck Institute for Demographic Research, Rostock, Germany, vol. 38(15), pages 335-372.
    7. Trond Husby & Hans Visser, 2021. "Short- to medium-run forecasting of mobility with dynamic linear models," Demographic Research, Max Planck Institute for Demographic Research, Rostock, Germany, vol. 45(28), pages 871-902.
    8. Joanne Ellison & Erengul Dodd & Jonathan J. Forster, 2020. "Forecasting of cohort fertility under a hierarchical Bayesian approach," Journal of the Royal Statistical Society Series A, Royal Statistical Society, vol. 183(3), pages 829-856, June.

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