Bayesian Simultaneous Partial Envelope Model with Application to an Imaging Genetics Analysis

Yanbo Shen, Yeonhee Park, Saptarshi Chakraborty, Chunming Zhang
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引用次数: 1

Abstract

As a prominent dimension reduction method for multivariate linear regression, the envelope model has received increased attention over the past decade due to its modeling flexibility and success in enhancing estimation and prediction efficiencies. Several enveloping approaches have been proposed in the literature; among these, the partial response envelope model [57] that focuses on only enveloping the coefficients for predictors of interest, and the simultaneous envelope model [14] that combines the predictor and the response envelope models within a unified modeling framework, are noteworthy. In this article we incorporate these two approaches within a Bayesian framework, and propose a novel Bayesian simultaneous partial envelope model that generalizes and addresses some limitations of the two approaches. Our method offers the flexibility of incorporating prior information if available, and aids coherent quantification of all modeling uncertainty through the posterior distribution of model parameters. A block Metropolis-within-Gibbs algorithm for Markov chain Monte Carlo (MCMC) sampling from the posterior is developed. The utility of our model is corroborated by theoretical results, comprehensive simulations, and a real imaging genetics data application for the Alzheimer’s Disease Neuroimaging Initiative (ADNI) study.
贝叶斯同时部分包络模型及其在成像遗传学分析中的应用
包络模型作为一种重要的多元线性回归降维方法,由于其建模的灵活性和在提高估计和预测效率方面的成功,在过去的十年中受到越来越多的关注。文献中提出了几种包络方法;其中,部分响应包络模型[57]侧重于只包络感兴趣的预测因子的系数,同时包络模型[14]将预测因子和响应包络模型结合在一个统一的建模框架内,值得注意。在本文中,我们将这两种方法合并到贝叶斯框架中,并提出了一种新的贝叶斯同时部分包络模型,该模型概括并解决了这两种方法的一些局限性。我们的方法提供了结合先验信息的灵活性,并通过模型参数的后验分布帮助所有建模不确定性的连贯量化。提出了一种用于马尔科夫链蒙特卡罗(MCMC)后验抽样的块metropolis - in- gibbs算法。理论结果、综合模拟和阿尔茨海默病神经影像学倡议(ADNI)研究的真实成像遗传学数据应用证实了我们模型的实用性。
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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