Accelerated distributed expectation-maximization algorithms for the parameter estimation in multivariate Gaussian mixture models

IF 4.4 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Applied Mathematical Modelling Pub Date : 2024-09-19 DOI:10.1016/j.apm.2024.115709

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Abstract

Rapid development for modeling big data requires effective and efficient methods for estimating the parameters involved. Although several accelerated Expectation-Maximization algorithms have been developed, there still exist two major concerns: reducing computational cost and improving model estimation accuracy. We propose three distributed-like algorithms for multivariate Gaussian mixture models, which can accelerate speed and improve estimation accuracy. The first algorithm is distributed algorithm, which is used to speed up the calculation of classic algorithms and improve its estimation accuracy by averaging the one-step estimators obtained from distributed operators. The second algorithm is distributed online algorithm, which is a distributed stochastic approximation procedure that performs online updates when reading online data. The final algorithm is called distributed monotonically over-relaxed algorithm, which uses an over-relaxation factor and a distributing strategy to improve the estimation accuracy of multivariate Gaussian mixture models. We investigate the stability, sensitivity, convergence, and robustness of these algorithms in a numerical study. We also apply these algorithms to three real data sets for validation.

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多变量高斯混合模型参数估计的加速分布式期望最大化算法

大数据建模的快速发展需要有效和高效的方法来估算相关参数。虽然已经开发出几种加速期望最大化算法，但仍存在两大问题：降低计算成本和提高模型估计精度。我们针对多变量高斯混合模型提出了三种类似分布式的算法，既能加快速度，又能提高估计精度。第一种算法是分布式算法，用于加快经典算法的计算速度，并通过对分布式算子得到的一步估计子进行平均来提高其估计精度。第二种算法是分布式在线算法，它是一种分布式随机近似程序，在读取在线数据时执行在线更新。最后一种算法称为分布式单调过度松弛算法，它使用过度松弛因子和分布式策略来提高多元高斯混合模型的估计精度。我们通过数值研究探讨了这些算法的稳定性、敏感性、收敛性和鲁棒性。我们还将这些算法应用于三个真实数据集进行验证。

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来源期刊

Applied Mathematical Modelling 数学-工程：综合

CiteScore

9.80

自引率

8.00%

发文量

508

审稿时长

43 days

期刊介绍： Applied Mathematical Modelling focuses on research related to the mathematical modelling of engineering and environmental processes, manufacturing, and industrial systems. A significant emerging area of research activity involves multiphysics processes, and contributions in this area are particularly encouraged. This influential publication covers a wide spectrum of subjects including heat transfer, fluid mechanics, CFD, and transport phenomena; solid mechanics and mechanics of metals; electromagnets and MHD; reliability modelling and system optimization; finite volume, finite element, and boundary element procedures; modelling of inventory, industrial, manufacturing and logistics systems for viable decision making; civil engineering systems and structures; mineral and energy resources; relevant software engineering issues associated with CAD and CAE; and materials and metallurgical engineering. Applied Mathematical Modelling is primarily interested in papers developing increased insights into real-world problems through novel mathematical modelling, novel applications or a combination of these. Papers employing existing numerical techniques must demonstrate sufficient novelty in the solution of practical problems. Papers on fuzzy logic in decision-making or purely financial mathematics are normally not considered. Research on fractional differential equations, bifurcation, and numerical methods needs to include practical examples. Population dynamics must solve realistic scenarios. Papers in the area of logistics and business modelling should demonstrate meaningful managerial insight. Submissions with no real-world application will not be considered.