Spatial regression modeling via the R2D2 framework

IF 1.5 3区环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES

Environmetrics Pub Date : 2023-10-27 DOI:10.1002/env.2829

Eric Yanchenko, Howard D. Bondell, Brian J. Reich

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Abstract

Spatially dependent data arises in many applications, and Gaussian processes are a popular modeling choice for these scenarios. While Bayesian analyses of these problems have proven to be successful, selecting prior distributions for these complex models remains a difficult task. In this work, we propose a principled approach for setting prior distributions on model variance components by placing a prior distribution on a measure of model fit. In particular, we derive the distribution of the prior coefficient of determination. Placing a beta prior distribution on this measure induces a generalized beta prime prior distribution on the global variance of the linear predictor in the model. This method can also be thought of as shrinking the fit towards the intercept-only (null) model. We derive an efficient Gibbs sampler for the majority of the parameters and use Metropolis–Hasting updates for the others. Finally, the method is applied to a marine protection area dataset. We estimate the effect of marine policies on biodiversity and conclude that no-take restrictions lead to a slight increase in biodiversity and that the majority of the variance in the linear predictor comes from the spatial effect.

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通过 R2D2 框架建立空间回归模型

在许多应用中都会出现空间依赖性数据，而高斯过程是这些情况下常用的建模选择。虽然对这些问题的贝叶斯分析已被证明是成功的，但为这些复杂模型选择先验分布仍然是一项艰巨的任务。在这项工作中，我们提出了一种原则性方法，通过将先验分布置于模型拟合度量上，为模型方差分量设置先验分布。特别是，我们得出了先验决定系数的分布。将贝塔先验分布置于该度量上，就会在模型中线性预测因子的全局方差上产生广义贝塔质先验分布。这种方法也可以看作是将拟合缩小到纯截距（空）模型。我们为大多数参数推导出了高效的 Gibbs 采样器，并对其他参数使用 Metropolis-Hasting 更新。最后，我们将该方法应用于海洋保护区数据集。我们估计了海洋政策对生物多样性的影响，并得出结论：禁捕限制导致生物多样性略有增加，线性预测因子的大部分方差来自空间效应。

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

Environmetrics 环境科学-环境科学

CiteScore

2.90

自引率

17.60%

发文量

审稿时长

18-36 weeks

期刊介绍： Environmetrics, the official journal of The International Environmetrics Society (TIES), an Association of the International Statistical Institute, is devoted to the dissemination of high-quality quantitative research in the environmental sciences. The journal welcomes pertinent and innovative submissions from quantitative disciplines developing new statistical and mathematical techniques, methods, and theories that solve modern environmental problems. Articles must proffer substantive, new statistical or mathematical advances to answer important scientific questions in the environmental sciences, or must develop novel or enhanced statistical methodology with clear applications to environmental science. New methods should be illustrated with recent environmental data.