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An Information Theoretic Perspective on Conformal Prediction

Machine Learning 2025-02-18 v3 Information Theory math.IT Machine Learning

Abstract

Conformal Prediction (CP) is a distribution-free uncertainty estimation framework that constructs prediction sets guaranteed to contain the true answer with a user-specified probability. Intuitively, the size of the prediction set encodes a general notion of uncertainty, with larger sets associated with higher degrees of uncertainty. In this work, we leverage information theory to connect conformal prediction to other notions of uncertainty. More precisely, we prove three different ways to upper bound the intrinsic uncertainty, as described by the conditional entropy of the target variable given the inputs, by combining CP with information theoretical inequalities. Moreover, we demonstrate two direct and useful applications of such connection between conformal prediction and information theory: (i) more principled and effective conformal training objectives that generalize previous approaches and enable end-to-end training of machine learning models from scratch, and (ii) a natural mechanism to incorporate side information into conformal prediction. We empirically validate both applications in centralized and federated learning settings, showing our theoretical results translate to lower inefficiency (average prediction set size) for popular CP methods.

Keywords

Cite

@article{arxiv.2405.02140,
  title  = {An Information Theoretic Perspective on Conformal Prediction},
  author = {Alvaro H. C. Correia and Fabio Valerio Massoli and Christos Louizos and Arash Behboodi},
  journal= {arXiv preprint arXiv:2405.02140},
  year   = {2025}
}

Comments

Please refer to https://papers.nips.cc/paper_files/paper/2024/hash/b6fa3ed9624c184bd73e435123bd576a-Abstract-Conference.html for the version published in the NeurIPS 2024 proceedings

R2 v1 2026-06-28T16:15:37.892Z