Preserving Statistical Privacy in Distributed Optimization
Abstract
We present a distributed optimization protocol that preserves statistical privacy of agents' local cost functions against a passive adversary that corrupts some agents in the network. The protocol is a composition of a distributed ``{\em zero-sum}" obfuscation protocol that obfuscates the agents' local cost functions, and a standard non-private distributed optimization method. We show that our protocol protects the statistical privacy of the agents' local cost functions against a passive adversary that corrupts up to arbitrary agents as long as the communication network has -vertex connectivity. The ``{\em zero-sum}" obfuscation protocol preserves the sum of the agents' local cost functions and therefore ensures accuracy of the computed solution.
Cite
@article{arxiv.2004.01312,
title = {Preserving Statistical Privacy in Distributed Optimization},
author = {Nirupam Gupta and Shripad Gade and Nikhil Chopra and Nitin H. Vaidya},
journal= {arXiv preprint arXiv:2004.01312},
year = {2021}
}
Comments
The updated version has simpler proofs. The paper has been peer-reviewed, and accepted for the IEEE Control Systems Letters (L-CSS 2021)