Bayesian Analysis of Longitudinal Ordinal Data Using Non-Identifiable Multivariate Probit Models

IF 0.3 Q4 MATHEMATICS
Xiao Zhang
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引用次数: 1

Abstract

: Multivariate probit models have been explored for analyzing longitudinal ordinal data. However, the inherent identification issue in multivariate probit models requires the covariance matrix of the underlying latent multivariate normal variables to be a correlation matrix and thus hinders the development of efficient Bayesian sampling methods. It is known that non-identifiable models may produce Markov Chain Monte Carlo (MCMC) samplers with better convergence and mixing than identifiable models. Therefore, we were motivated to construct a non-identifiable multivariate probit model and to develop efficient MCMC sampling algorithms. In comparison with the MCMC sampling algorithm based on the identifiable multivariate probit model, which requires a Metropolis-Hastings (MH) algorithm for sampling a correlation matrix, our proposed MCMC sampling algorithms based on the non-identifiable model circumvent an MH algorithm by a Gibbs sampler for sampling a covariance matrix and thus accelerate the MCMC convergence. We illustrate our proposed methods using simulation studies and two real data applications. Both the simulation studies and the real data applications show that constructing nonidentifiable models may improve the convergence of the MCMC algorithms compared with the identifiable models. The marginalization of the redundant parameters in the non-identifiable models should be considered in developing efficient MCMC sampling algorithms. This investigation shows that construction of non-identifiable models is valuable in developing MCMC sampling methods and illustrates advantages and disadvantages of construction of non-identifiable models to improve the convergence of the MCMC sampling components.
使用不可识别多元概率模型的纵向有序数据的贝叶斯分析
多元概率模型已被用于分析纵向有序数据。然而,多元概率模型中固有的识别问题要求潜在多元正态变量的协方差矩阵为相关矩阵,从而阻碍了高效贝叶斯抽样方法的发展。已知非可识别模型产生的马尔可夫链蒙特卡罗(MCMC)采样器比可识别模型具有更好的收敛性和混合性。因此,我们被激励去构建一个不可识别的多元概率模型,并开发有效的MCMC采样算法。基于可识别多变量概率模型的MCMC采样算法需要使用Metropolis-Hastings (MH)算法对相关矩阵进行采样,与此相比,本文提出的基于不可识别模型的MCMC采样算法绕过了使用Gibbs采样器对协方差矩阵进行采样的MH算法,从而加快了MCMC的收敛速度。我们通过仿真研究和两个实际数据应用来说明我们提出的方法。仿真研究和实际数据应用表明,与可识别模型相比,构建不可识别模型可以提高MCMC算法的收敛性。在开发高效的MCMC采样算法时,必须考虑不可识别模型中冗余参数的边缘化问题。研究表明,构建非可识别模型对MCMC采样方法的发展具有重要意义,并说明了构建非可识别模型提高MCMC采样分量收敛性的优缺点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
0.70
自引率
33.30%
发文量
0
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