A Factor Graph Approach to Variational Sparse Gaussian Processes

IF 2.7 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE open journal of signal processing Pub Date : 2025-07-02 DOI:10.1109/OJSP.2025.3585440

Hoang Minh Huu Nguyen;İsmaıl Şenöz;Bert De Vries

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Abstract

A Variational Sparse Gaussian Process (VSGP) is a sophisticated nonparametric probabilistic model that has gained significant popularity since its inception. The VSGP model is often employed as a component of larger models or in a modified form across numerous applications. However, re-deriving the update equations for inference in these variations is technically challenging, which hinders broader adoption. In a separate line of research, message passing-based inference in factor graphs has emerged as an efficient framework for automated Bayesian inference. Despite its advantages, message passing techniques have not yet been applied to VSGP-based models due to the lack of a suitable representation for VSGP models in factor graphs. To address this limitation, we introduce a Sparse Gaussian Process (SGP) node within a Forney-style factor graph (FFG). We derive variational message passing update rules for the SGP node, enabling automated and efficient inference for VSGP-based models. We validate the update rules and illustrate the benefits of the SGP node through experiments in various Gaussian Process applications.

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变分稀疏高斯过程的因子图方法

变分稀疏高斯过程（VSGP）是一种复杂的非参数概率模型，自诞生以来就得到了广泛的应用。VSGP模型经常被用作大型模型的组件，或者以经过修改的形式跨多个应用程序使用。然而，在这些变化中重新推导更新方程在技术上是具有挑战性的，这阻碍了更广泛的采用。在单独的研究中，因子图中基于消息传递的推理已经成为自动贝叶斯推理的有效框架。尽管有其优点，消息传递技术还没有应用到基于VSGP的模型中，因为在因子图中缺乏合适的VSGP模型表示。为了解决这一限制，我们在forney风格的因子图（FFG）中引入了稀疏高斯过程（SGP）节点。我们推导了SGP节点的变分消息传递更新规则，实现了基于vsgp的模型的自动高效推理。我们通过各种高斯过程应用的实验验证了更新规则，并说明了SGP节点的优点。

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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