Reliable inference for complex models by discriminative composite likelihood estimation
Reliable inference for complex models by discriminative composite likelihood estimation
Composite likelihood estimation has an important role in the analysis of multivariate data for which the full likelihood function is intractable. An important issue in composite likelihood inference is the choice of the weights associated with lower-dimensional data sub-sets, since the presence of incompatible sub-models can deteriorate the accuracy of the resulting estimator. In this paper, we introduce a new approach for simultaneous parameter estimation by tilting, or re-weighting, each sub-likelihood component called discriminative composite likelihood estimation (D-McLE). The data-adaptive weights maximize the composite likelihood function, subject to moving a given distance from uniform weights; then, the resulting weights can be used to rank lower-dimensional likelihoods in terms of their influence in the composite likelihood function. Our analytical findings and numerical examples support the stability of the resulting estimator compared to estimators constructed using standard composition strategies based on uniform weights. The properties of the new method are illustrated through simulated data and real spatial data on multivariate precipitation extremes.
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68-80
Ferrari, Davide
b061fda3-174e-409f-8130-b09eca7e4c93
Zheng, Chao
f3e2a919-4c02-4f5a-8de6-4c4de8ab6b60
February 2016
Ferrari, Davide
b061fda3-174e-409f-8130-b09eca7e4c93
Zheng, Chao
f3e2a919-4c02-4f5a-8de6-4c4de8ab6b60
Ferrari, Davide and Zheng, Chao
(2016)
Reliable inference for complex models by discriminative composite likelihood estimation.
Journal of Multivariate Analysis, 144, .
(doi:10.1016/j.jmva.2015.10.008).
Abstract
Composite likelihood estimation has an important role in the analysis of multivariate data for which the full likelihood function is intractable. An important issue in composite likelihood inference is the choice of the weights associated with lower-dimensional data sub-sets, since the presence of incompatible sub-models can deteriorate the accuracy of the resulting estimator. In this paper, we introduce a new approach for simultaneous parameter estimation by tilting, or re-weighting, each sub-likelihood component called discriminative composite likelihood estimation (D-McLE). The data-adaptive weights maximize the composite likelihood function, subject to moving a given distance from uniform weights; then, the resulting weights can be used to rank lower-dimensional likelihoods in terms of their influence in the composite likelihood function. Our analytical findings and numerical examples support the stability of the resulting estimator compared to estimators constructed using standard composition strategies based on uniform weights. The properties of the new method are illustrated through simulated data and real spatial data on multivariate precipitation extremes.
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e-pub ahead of print date: 11 November 2015
Published date: February 2016
Identifiers
Local EPrints ID: 441509
URI: http://eprints.soton.ac.uk/id/eprint/441509
ISSN: 0047-259X
PURE UUID: 00cdcdf6-f8bc-4c4f-878b-28dd83c661d8
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Date deposited: 16 Jun 2020 16:31
Last modified: 17 Mar 2024 04:02
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Author:
Davide Ferrari
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