Jacob Helwig, Sutanoy Dasgupta, Peng Zhao, Bani K. Mallick, Debdeep Pati
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引用次数: 0
Abstract
Graphical models are used to capture complex multivariate relationships and have applications in diverse disciplines such as in biology, physics, and economics. Within this field, Gaussian graphical models aim to identify the pairs of variables whose dependence is maintained even after conditioning on the remaining variables in the data, known as the conditional dependence structure of the data. There are many existing software packages for Gaussian graphical modeling, however, they often make restrictive assumptions that reduce their flexibility for modeling data that are not identically distributed. Conversely, covdepGE is a R implementation of a variational weighted pseudo-likelihood algorithm for modeling the conditional dependence structure as a continuous function of an extraneous covariate. To build on the efficiency of this algorithm, covdepGE leverages parallelism and C++ integration with R. Additionally, covdepGE provides fully-automated and data-driven hyperparameter specification while maintaining flexibility for the user to decide key components of the estimation procedure. Through an extensive simulation study spanning diverse settings, covdepGE is demonstrated to be top of its class in recovering the ground-truth conditional dependence structure while efficiently managing computational overhead.
图形模型用于捕捉复杂的多元关系,在生物学、物理学和经济学等不同学科中都有应用。在这一领域中,高斯图形模型旨在识别即使在对数据中的其余变量进行条件化处理后,其依赖关系仍然保持不变的变量对,即数据的条件依赖结构。现有许多高斯图形建模软件包,但它们通常会做出限制性假设,从而降低了对非同分布数据建模的灵活性。相反,covdepGE 是一种变分加权伪似然法算法的 R 实现,用于将条件依赖结构建模为无关协变量的连续函数。为了提高该算法的效率,covdepGE 利用并行性和 C++ 与 R 的集成。此外,covdepGE 还提供全自动和数据驱动的超参数规格,同时保持用户决定估计过程关键部分的灵活性。通过对各种环境的广泛模拟研究,covdepGE 在恢复地面真实条件依赖结构方面被证明是同类产品中的佼佼者,同时还能有效管理计算开销。
期刊介绍:
As a scientific journal, ACM Transactions on Mathematical Software (TOMS) documents the theoretical underpinnings of numeric, symbolic, algebraic, and geometric computing applications. It focuses on analysis and construction of algorithms and programs, and the interaction of programs and architecture. Algorithms documented in TOMS are available as the Collected Algorithms of the ACM at calgo.acm.org.