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Autores principales: Jedhoff, Svenja, Semenova, Elizaveta, Raulo, Aura, Meyer, Anne, Bürkner, Paul-Christian
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2601.02241
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author Jedhoff, Svenja
Semenova, Elizaveta
Raulo, Aura
Meyer, Anne
Bürkner, Paul-Christian
author_facet Jedhoff, Svenja
Semenova, Elizaveta
Raulo, Aura
Meyer, Anne
Bürkner, Paul-Christian
contents Graphs arise across diverse domains, from biology and chemistry to social and information networks, as well as in transportation and logistics. Inference on graph-structured data requires methods that are permutation-invariant, scalable across varying sizes and sparsities, and capable of capturing complex long-range dependencies, making posterior estimation on graph parameters particularly challenging. Amortized Bayesian Inference (ABI) is a simulation-based framework that employs generative neural networks to enable fast, likelihood-free posterior inference. We adapt ABI to graph data to address these challenges to perform inference on node-, edge-, and graph-level parameters. Our approach couples permutation-invariant graph encoders with flexible neural posterior estimators in a two-module pipeline: a summary network maps attributed graphs to fixed-length representations, and an inference network approximates the posterior over parameters. In this setting, several neural architectures can serve as the summary network. In this work we evaluate multiple architectures and assess their performance on controlled synthetic settings and two real-world domains - biology and logistics - in terms of recovery and calibration.
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publishDate 2026
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spellingShingle From Mice to Trains: Amortized Bayesian Inference on Graph Data
Jedhoff, Svenja
Semenova, Elizaveta
Raulo, Aura
Meyer, Anne
Bürkner, Paul-Christian
Machine Learning
Graphs arise across diverse domains, from biology and chemistry to social and information networks, as well as in transportation and logistics. Inference on graph-structured data requires methods that are permutation-invariant, scalable across varying sizes and sparsities, and capable of capturing complex long-range dependencies, making posterior estimation on graph parameters particularly challenging. Amortized Bayesian Inference (ABI) is a simulation-based framework that employs generative neural networks to enable fast, likelihood-free posterior inference. We adapt ABI to graph data to address these challenges to perform inference on node-, edge-, and graph-level parameters. Our approach couples permutation-invariant graph encoders with flexible neural posterior estimators in a two-module pipeline: a summary network maps attributed graphs to fixed-length representations, and an inference network approximates the posterior over parameters. In this setting, several neural architectures can serve as the summary network. In this work we evaluate multiple architectures and assess their performance on controlled synthetic settings and two real-world domains - biology and logistics - in terms of recovery and calibration.
title From Mice to Trains: Amortized Bayesian Inference on Graph Data
topic Machine Learning
url https://arxiv.org/abs/2601.02241