Saved in:
Bibliographic Details
Main Authors: Wahl, Stefan, Schenk, Raphaela, Farnoud, Ali, Macke, Jakob H., Gedon, Daniel
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.18266
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866918347775410176
author Wahl, Stefan
Schenk, Raphaela
Farnoud, Ali
Macke, Jakob H.
Gedon, Daniel
author_facet Wahl, Stefan
Schenk, Raphaela
Farnoud, Ali
Macke, Jakob H.
Gedon, Daniel
contents Automated methods for discovering mechanistic simulator models from observational data offer a promising path toward accelerating scientific progress. Such methods often take the form of agentic-style iterative workflows that repeatedly propose and revise candidate models by imitating human discovery processes. However, existing LLM-based approaches typically implement such workflows via hand-crafted heuristic procedures, without an explicit probabilistic formulation. We recast model discovery as probabilistic inference, i.e., as sampling from an unknown distribution over mechanistic models capable of explaining the data. This perspective provides a unified way to reason about model proposal, refinement, and selection within a single inference framework. As a concrete instantiation of this view, we introduce ModelSMC, an algorithm based on Sequential Monte Carlo sampling. ModelSMC represents candidate models as particles which are iteratively proposed and refined by an LLM, and weighted using likelihood-based criteria. Experiments on real-world scientific systems illustrate that this formulation discovers models with interpretable mechanisms and improves posterior predictive checks. More broadly, this perspective provides a probabilistic lens for understanding and developing LLM-based approaches to model discovery.
format Preprint
id arxiv_https___arxiv_org_abs_2602_18266
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle A Probabilistic Framework for LLM-Based Model Discovery
Wahl, Stefan
Schenk, Raphaela
Farnoud, Ali
Macke, Jakob H.
Gedon, Daniel
Machine Learning
Automated methods for discovering mechanistic simulator models from observational data offer a promising path toward accelerating scientific progress. Such methods often take the form of agentic-style iterative workflows that repeatedly propose and revise candidate models by imitating human discovery processes. However, existing LLM-based approaches typically implement such workflows via hand-crafted heuristic procedures, without an explicit probabilistic formulation. We recast model discovery as probabilistic inference, i.e., as sampling from an unknown distribution over mechanistic models capable of explaining the data. This perspective provides a unified way to reason about model proposal, refinement, and selection within a single inference framework. As a concrete instantiation of this view, we introduce ModelSMC, an algorithm based on Sequential Monte Carlo sampling. ModelSMC represents candidate models as particles which are iteratively proposed and refined by an LLM, and weighted using likelihood-based criteria. Experiments on real-world scientific systems illustrate that this formulation discovers models with interpretable mechanisms and improves posterior predictive checks. More broadly, this perspective provides a probabilistic lens for understanding and developing LLM-based approaches to model discovery.
title A Probabilistic Framework for LLM-Based Model Discovery
topic Machine Learning
url https://arxiv.org/abs/2602.18266