Paper detail

Download Cost of Private Updating

We consider the problem of privately updating a message out of $K$ messages from $N$ replicated and non-colluding databases. In this problem, a user has an outdated version of the message $\hat{W}_θ$ of length $L$ bits that differ from the current version $W_θ$ in at most $f$ bits. The user needs to retrieve $W_θ$ correctly using a private information retrieval (PIR) scheme with the least number of downloads without leaking any information about the message index $θ$ to any individual database. To that end, we propose a novel achievable scheme based on \emph{syndrome decoding}. Specifically, the user downloads the syndrome corresponding to $W_θ$, according to a linear block code with carefully designed parameters, using the optimal PIR scheme for messages with a length constraint. We derive lower and upper bounds for the optimal download cost that match if the term $\log_2\left(\sum_{i=0}^f \binom{L}{i}\right)$ is an integer. Our results imply that there is a significant reduction in the download cost if $f < \frac{L}{2}$ compared with downloading $W_θ$ directly using classical PIR approaches without taking the correlation between $W_θ$ and $\hat{W}_θ$ into consideration.