An Efficient, High-Rate Scheme for Private Information Retrieval over the Gaussian MAC

This paper revisited the problem of Private Information Retrieval (PIR), where there are $N$ replicated non-communicating databases containing the same $M$ messages and a user who wishes to retrieve one of the messages without revealing the wanted message's index to the databases. However, we assume a block-fading additive white Gaussian noise multiple access channel (AWGN MAC) linking the user and the databases. Previous work \cite{shmuel2021private} presented a joint channel-PIR scheme, utilizing the Compute and Forward protocol, showing the potential of a joint channel-PIR scheme over a separated one. This paper proposes an improved joint scheme tailored for the PIR problem with $N$ databases over a block-fading AWGN. Unlike the C\&F protocol, our scheme offers reduced computational complexity while improving the scaling laws governing the achievable rate. Specifically, the achievable rate scales with the number of databases $N$ and the power $P$ similarly to the channel capacity without the privacy constraint and outperforms the C\&F-based approach. Furthermore, the analysis demonstrates that the improved rate exhibits only a finite gap from the unconstrained channel capacity -- one bit per second per Hz as $N$ increases.