First DP procedure for smooth OT map estimation achieving near-minimax optimality in d≥2 and minimax in d=1, with matching lower bounds.
Local differential privacy: Elbow effect in optimal density estimation and adaptation over Besov ellipsoids
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abstract
We address the problem of non-parametric density estimation under the additional constraint that only privatised data are allowed to be published and available for inference. For this purpose, we adopt a recent generalisation of classical minimax theory to the framework of local $\alpha$-differential privacy and provide a lower bound on the rate of convergence over Besov spaces $B^s_{pq}$ under mean integrated $\mathbb L^r$-risk. This lower bound is deteriorated compared to the standard setup without privacy, and reveals a twofold elbow effect. In order to fulfil the privacy requirement, we suggest adding suitably scaled Laplace noise to empirical wavelet coefficients. Upper bounds within (at most) a logarithmic factor are derived under the assumption that $\alpha$ stays bounded as $n$ increases: A linear but non-adaptive wavelet estimator is shown to attain the lower bound whenever $p \geq r$ but provides a slower rate of convergence otherwise. An adaptive non-linear wavelet estimator with appropriately chosen smoothing parameters and thresholding is shown to attain the lower bound within a logarithmic factor for all cases.
fields
math.ST 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Minimax Private Estimation of Smooth Optimal-Transport Maps
First DP procedure for smooth OT map estimation achieving near-minimax optimality in d≥2 and minimax in d=1, with matching lower bounds.