Local Mutual-Information Differential Privacy

Local mutual-information differential privacy (LMIDP) is a privacy notion that aims to quantify the reduction of uncertainty about the input data when the output of a privacy-preserving mechanism is revealed. We study the relation of LMIDP with local differential privacy (LDP), the de facto standard notion of privacy in context-independent (CI) scenarios, and with local information privacy (LIP), the state-of-the-art notion for context-dependent settings. We establish explicit conversion rules, i.e., bounds on the privacy parameters for a LMIDP mechanism to also satisfy LDP/LIP, and vice versa. We use our bounds to formally verify that LMIDP is a weak privacy notion. We also show that uncorrelated Gaussian noise is the best-case noise in terms of CI-LMIDP if both the input data and the noise are subject to an average power constraint.