Sonia MartÃnez
Jacobs Faculty Scholar
Professor of Mechanical and Aerospace Engineering
A numerical verification framework for differential privacy in estimation
Yunhai Han and Sonia MartÃnez
IEEE Control Systems Letters, 6 (2021) 1712-1717
Abstract:
This work proposes an algorithmic method to verify differential privacy for estimation mechanisms with performance guarantees. Differential privacy makes it hard to distinguish outputs of a mechanism produced by adjacent inputs. While obtaining theoretical conditions that guarantee differential privacy may be possible, evaluating these conditions in practice can be hard. This is especially true for estimation mechanisms that take values in continuous spaces, as this requires checking for an infinite set of inequalities. Instead, our verification approach consists of testing the differential privacy condition for a suitably chosen finite collection of events at the expense of some information loss. More precisely, our data-driven, test framework for continuous range mechanisms first finds a highly-likely, compact event set, as well as a partition of this event, and then evaluates differential privacy wrt this partition. This results into a type of differential privacy with high confidence, which we are able to quantify precisely. This approach is then used to evaluate the differential-privacy properties of the recently proposed W2 Moving Horizon Estimator. We confirm its properties, while comparing its performance with alternative approaches in simulation.
File: (ArXiv version)
Bib-tex entry:
@article{YH-SM:21-lcss,
author = {Yunhai Han and S. Mart{\'\i}nezs},
title = {A numerical verification
framework for differential privacy in estimation},
journal= {IEEE Control Systems Letters,
pages = {1712-1717},
volume = {6},
year = {2021}
}