English

Training-Conditional Coverage Bounds for Uniformly Stable Learning Algorithms

Machine Learning 2024-04-23 v1 Machine Learning

Abstract

The training-conditional coverage performance of the conformal prediction is known to be empirically sound. Recently, there have been efforts to support this observation with theoretical guarantees. The training-conditional coverage bounds for jackknife+ and full-conformal prediction regions have been established via the notion of (m,n)(m,n)-stability by Liang and Barber~[2023]. Although this notion is weaker than uniform stability, it is not clear how to evaluate it for practical models. In this paper, we study the training-conditional coverage bounds of full-conformal, jackknife+, and CV+ prediction regions from a uniform stability perspective which is known to hold for empirical risk minimization over reproducing kernel Hilbert spaces with convex regularization. We derive coverage bounds for finite-dimensional models by a concentration argument for the (estimated) predictor function, and compare the bounds with existing ones under ridge regression.

Keywords

Cite

@article{arxiv.2404.13731,
  title  = {Training-Conditional Coverage Bounds for Uniformly Stable Learning Algorithms},
  author = {Mehrdad Pournaderi and Yu Xiang},
  journal= {arXiv preprint arXiv:2404.13731},
  year   = {2024}
}

Comments

Accepted to the ISIT 2024 workshop on Information-Theoretic Methods for Trustworthy Machine Learning (IT-TML)

R2 v1 2026-06-28T16:01:28.860Z