An Adaptive Method for Likelihood Optimization in Linear Mixed Models Under Constrained Search Spaces

Revista Colombiana de Estadística Pub Date : 2023-07-12 DOI:10.15446/rce.v46n2.104019

Juan Carlos Salazar Uribe, Mauricio A Mazo Lopera, Juan Carlos Correa Morales

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Abstract

Linear mixed effects models are highly flexible in handling correlated data by considering covariance matrices that explain variation patterns between and within clusters. For these covariance matrices, there exist a wide list of possible structures proposed by researchers in multiple scientific areas. Maximum likelihood is the most common estimation method in linear mixed models and it depends on the structured covariance matrices for random effects and errors. Classical methods used to optimize the likelihood function, such as Newton-Raphson or Fisher's scoring, require analytical procedures to obtain parametrical restrictions to guarantee positive definiteness for the structured matrices and it is not, in general, an easy task. To avoid dealing with complex restrictions, we propose an adaptive method that incorporates the so-called Hybrid Genetic Algorithms with a penalization technique based on minimum eigenvalues to guarantee positive definiteness in an evolutionary process which discards non-viable cases. The proposed method is evaluated through simulations and its performance is compared with that of Newton-Raphson algorithm implemented in SAS® PROC MIXED V9.4.

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受限搜索空间下线性混合模型似然优化的自适应方法

线性混合效应模型通过考虑协方差矩阵来解释聚类之间和聚类内部的变化模式，在处理相关数据方面具有很高的灵活性。对于这些协方差矩阵，多个科学领域的研究人员提出了一系列可能的结构。最大似然法是线性混合模型中最常用的估计方法，它依赖于随机效应和误差的结构化协方差矩阵。用于优化似然函数的经典方法，如牛顿-拉斐逊法或费雪评分法，需要通过分析程序获得参数限制，以保证结构矩阵的正定性，一般来说，这并不是一件容易的事。为了避免处理复杂的限制条件，我们提出了一种自适应方法，将所谓的混合遗传算法与基于最小特征值的惩罚技术结合起来，以保证进化过程中的正定性，从而摒弃不可行的情况。我们通过模拟对所提出的方法进行了评估，并将其性能与 SAS® PROC MIXED V9.4 中的牛顿-拉斐森算法进行了比较。

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Revista Colombiana de Estadística

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