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Triple‐goal estimates in two‐stage hierarchical models

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  • Wei Shen
  • Thomas A. Louis

Abstract

The beauty of the Bayesian approach is its ability to structure complicated models, inferential goals and analyses. To take full advantage of it, methods should be linked to an inferential goal via a loss function. For example, in the two‐stage, compound sampling model the posterior means are optimal under squared error loss. However, they can perform poorly in estimating the histogram of the parameters or in ranking them. ‘Triple‐goal’ estimates are motivated by the desire to have a set of estimates that produce good ranks, a good parameter histogram and good co‐ordinate‐specific estimates. No set of estimates can simultaneously optimize these three goals and we seek a set that strikes an effective trade‐off. We evaluate and compare three candidate approaches: the posterior means, the constrained Bayes estimates of Louis and Ghosh, and a new approach that optimizes estimation of the histogram and the ranks. Mathematical and simulation‐based analyses support the superiority of the new approach and document its excellent performance for the three inferential goals.

Suggested Citation

  • Wei Shen & Thomas A. Louis, 1998. "Triple‐goal estimates in two‐stage hierarchical models," Journal of the Royal Statistical Society Series B, Royal Statistical Society, vol. 60(2), pages 455-471.
    • Handle: RePEc:bla:jorssb:v:60:y:1998:i:2:p:455-471
    DOI: 10.1111/1467-9868.00135
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    Cited by:

    1. Nicholas Tibor Longford, 2016. "Decision Theory Applied to Selecting the Winners, Ranking, and Classification," Journal of Educational and Behavioral Statistics, , vol. 41(4), pages 420-442, August.
    2. Partha Lahiri & Jiraphan Suntornchost, 2020. "A general Bayesian approach to meet different inferential goals in poverty research for small areas," Statistics in Transition New Series, Polish Statistical Association, vol. 21(4), pages 237-253, August.
    3. George Leckie & Robert French & Chris Charlton & William Browne, 2014. "Modeling Heterogeneous Variance–Covariance Components in Two-Level Models," Journal of Educational and Behavioral Statistics, , vol. 39(5), pages 307-332, October.
    4. Donald Boyd & Hamilton Lankford & Susanna Loeb & James Wyckoff, 2013. "Measuring Test Measurement Error," Journal of Educational and Behavioral Statistics, , vol. 38(6), pages 629-663, December.
    5. Jing Cao & S. Lynne Stokes & Song Zhang, 2010. "A Bayesian Approach to Ranking and Rater Evaluation," Journal of Educational and Behavioral Statistics, , vol. 35(2), pages 194-214, April.
    6. Bonnéry Daniel & Cheng Yang & Ha Neung Soo & Lahiri Partha, 2015. "Triple-Goal Estimation of Unemployment Rates for U.S. States Using the U.S. Current Population Survey Data," Statistics in Transition New Series, Polish Statistical Association, vol. 16(4), pages 511-522, December.
    7. Burgard Jan Pablo & Münnich Ralf, 2015. "Sae Teaching Using Simulations," Statistics in Transition New Series, Polish Statistical Association, vol. 16(4), pages 603-610, December.
    8. Lahiri Partha & Suntornchost Jiraphan, 2020. "A general Bayesian approach to meet different inferential goals in poverty research for small areas," Statistics in Transition New Series, Polish Statistical Association, vol. 21(4), pages 237-253, August.
    9. Longford Nicholas T., 2015. "Policy-Oriented Inference and the Analyst-Client Cooperation. An Example from Small-Area Statistics," Statistics in Transition New Series, Polish Statistical Association, vol. 16(1), pages 65-82, March.
    10. J. R. Lockwood & Katherine E. Castellano & Benjamin R. Shear, 2018. "Flexible Bayesian Models for Inferences From Coarsened, Group-Level Achievement Data," Journal of Educational and Behavioral Statistics, , vol. 43(6), pages 663-692, December.

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