Generating Differentially Private Networks with a Modified Erdos-R\'enyi Model

Abstract

Differential privacy has been used to privately calculate numerous network properties, but existing approaches often require the development of a new privacy mechanism for each property of interest. Therefore, we present a framework for generating entire networks in a differentially private way. Differential privacy is immune to post-processing, which allows for any network property to be computed and analyzed for a private output network, without weakening its protections. We consider undirected networks and develop a differential privacy mechanism that takes in a sensitive network and outputs a private network by randomizing its edge set. We prove that this mechanism does provide differential privacy to a network's edge set, though it induces a complex distribution over the space of output graphs. We then develop an equivalent privacy implementation using a modified Erdos-R\'enyi model that constructs an output graph edge by edge, and it is efficient and easily implementable, even on large complex networks. Experiments implement -differential privacy with =2.5 when computing graph Laplacian spectra, and these results show the proposed mechanism incurs 49.34\% less error than the current state of the art.