无需数值计算难解积分的空间广义线性混合模型最大似然算法

Maximum Likelihood Algorithm for Spatial Generalized Linear Mixed Models without Numerical Evaluations of Intractable Integrals

Journal of Computational and Graphical Statistics · 2023
被引 1
ABS 3

中文导读

提出预测最大化算法,避免高维难解积分,使计数数据的空间广义线性混合模型的最大似然估计与正态响应模型一样简单,模拟显示性能优于贝叶斯MCMC方法。

Abstract

Spatial generalized linear mixed effects models are popular in spatial or spatiotemporal data analysis when the responses are counts and the random effects are modeled by multivariate normal distributions. Direct computation of the MLEs of model parameters is impossible because the likelihood functions contain high-dimensional intractable integrals. To overcome the difficulty, a new method called the prediction-maximization algorithm is proposed. The method has a maximization step for the MLEs of spatial linear mixed effects models for normal responses and a prediction step for the prediction of the random effects. None of them involves high-dimensional intractable integrals. Because only algorithms for the normal responses are needed, the derivation of the MLEs of a spatial generalized linear mixed effects model for count responses by the proposed method is not computationally harder than a model for normal responses. The simulation study shows that the performance of the proposed method is comparable to that of the previous maximum likelihood algorithms formulated by high-order Laplace approximations and is better than that of Bayesian methods formulated by MCMC algorithms. Supplementary materials for this article are available online.

空间统计广义线性混合模型最大似然估计算法