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Differentially Private Nonparametric Regression Under a Growth Condition

Machine Learning 2021-11-29 v1 Cryptography and Security Machine Learning

Abstract

Given a real-valued hypothesis class H\mathcal{H}, we investigate under what conditions there is a differentially private algorithm which learns an optimal hypothesis from H\mathcal{H} given i.i.d. data. Inspired by recent results for the related setting of binary classification (Alon et al., 2019; Bun et al., 2020), where it was shown that online learnability of a binary class is necessary and sufficient for its private learnability, Jung et al. (2020) showed that in the setting of regression, online learnability of H\mathcal{H} is necessary for private learnability. Here online learnability of H\mathcal{H} is characterized by the finiteness of its η\eta-sequential fat shattering dimension, sfatη(H){\rm sfat}_\eta(\mathcal{H}), for all η>0\eta > 0. In terms of sufficient conditions for private learnability, Jung et al. (2020) showed that H\mathcal{H} is privately learnable if limη0sfatη(H)\lim_{\eta \downarrow 0} {\rm sfat}_\eta(\mathcal{H}) is finite, which is a fairly restrictive condition. We show that under the relaxed condition liminfη0ηsfatη(H)=0\lim \inf_{\eta \downarrow 0} \eta \cdot {\rm sfat}_\eta(\mathcal{H}) = 0, H\mathcal{H} is privately learnable, establishing the first nonparametric private learnability guarantee for classes H\mathcal{H} with sfatη(H){\rm sfat}_\eta(\mathcal{H}) diverging as η0\eta \downarrow 0. Our techniques involve a novel filtering procedure to output stable hypotheses for nonparametric function classes.

Keywords

Cite

@article{arxiv.2111.12786,
  title  = {Differentially Private Nonparametric Regression Under a Growth Condition},
  author = {Noah Golowich},
  journal= {arXiv preprint arXiv:2111.12786},
  year   = {2021}
}

Comments

41 pages; appeared in COLT 2021

R2 v1 2026-06-24T07:51:18.974Z