What type of study is this?

This is a Quantitative Study study.

October 1, 2025Open Access

Neural quasiprobabilistic likelihood ratio estimation with negatively weighted data

Puntos clave

A novel method improves likelihood ratio estimation using a new loss function and architecture, addressing challenges posed by negative weights.
Key evidence shows that the approach effectively tackles negative densities in both a pedagogical and real-world particle physics example.
Analysis includes the introduction of signed mixture models, which play a crucial role in decomposing likelihood ratios in quasiprobabilistic settings.
Findings suggest new pathways for applying neural networks to complex likelihood ratio problems common in particle physics.

Resumen

Abstract Motivated by real-world situations found in high energy particle physics, we consider a generalization of the likelihood-ratio estimation task to a quasiprobabilistic setting where probability densities can be negative, and to importance sampling where the importance weights can be negative.The presence of negative densities and negative weights, pose an array of challenges to traditional neural likelihood ratio estimation methods. We address these challenges by introducing a novel loss function. In addition, we introduce a new model architecture based on the decomposition of a likelihood ratio using signed mixture models, providing a second strategy for overcoming these challenges. Finally, we demonstrate our approach on a pedagogical example and a real-world example from particle physics.

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Cite This Study

Drnevich et al. (Tue,) studied this question.

synapsesocial.com/papers/68dd91cbfe798ba2fc4987c6 https://doi.org/https://doi.org/10.1088/2632-2153/ae0def

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