Training, Architecture, and Prior for Deterministic Uncertainty Methods

Bertrand Charpentier; Chenxiang Zhang; Stephan Günnemann

Training, Architecture, and Prior for Deterministic Uncertainty Methods

Bertrand Charpentier, Chenxiang Zhang, Stephan Günnemann

Published: 04 Mar 2023, Last Modified: 21 Apr 2024ICLR 2023 Workshop on Trustworthy ML PosterReaders: Everyone

Keywords: Uncertainty, Deterministic, Prior, Training, Architecture

Abstract: Accurate and efficient uncertainty estimation is crucial to build reliable Machine Learning (ML) models capable to provide calibrated uncertainty estimates, generalize and detect Out-Of-Distribution (OOD) datasets. To this end, Deterministic Uncertainty Methods (DUMs) is a promising model family capable to perform uncertainty estimation in a single forward pass. This work investigates important design choices in DUMs: (1) we show that training schemes decoupling the core architecture and the uncertainty head schemes can significantly improve uncertainty performances. (2) we demonstrate that the core architecture expressiveness is crucial for uncertainty performance and that additional architecture constraints to avoid feature collapse can deteriorate the trade-off between OOD generalization and detection. (3) Contrary to other Bayesian models, we show that the prior defined by DUMs do not have a strong effect on the final performances.

Community Implementations: [![CatalyzeX](/images/catalyzex_icon.svg) 2 code implementations](https://www.catalyzex.com/paper/arxiv:2303.05796/code)

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