Optimal Conformal Prediction Under Epistemic Uncertainty
MCML Authors
Alireza Javanmardi
Eyke Hüllermeier
Prof. Dr.
Principal Investigator
Abstract
Alireza Javanmardi
Eyke Hüllermeier
Prof. Dr.
Principal Investigator
Abstract
Conformal prediction (CP) is a popular frequentist framework for representing uncertainty by providing prediction sets that guarantee coverage of the true label with a user-adjustable probability. In most applications, CP operates on confidence scores coming from a standard (first-order) probabilistic predictor (e.g., softmax outputs). Second-order predictors, such as credal set predictors or Bayesian models, are also widely used for uncertainty quantification and are known for their ability to represent both aleatoric and epistemic uncertainty. Despite their popularity, there is still an open question on ``how they can be incorporated into CP''. In this paper, we discuss the desiderata for CP when valid second-order predictions are available. We then introduce Bernoulli prediction sets (BPS), which produce the smallest prediction sets that ensure conditional coverage in this setting. When given first-order predictions, BPS reduces to the well-known adaptive prediction sets (APS). Furthermore, when the validity assumption on the second-order predictions is compromised, we apply conformal risk control to obtain a marginal coverage guarantee while still accounting for epistemic uncertainty.
misc
Preprint
May. 2025Authors
A. Javanmardi • S. H. Zargarbashi • S. M. A. R. Thies • W. Waegeman • A. Bojchevski • E. HüllermeierLinks
Research Area
BibTeXKey: JZT+25a