Razane Tajeddine, Oliver W. Gnilke, David Karpuk, Ragnar Freij-Hollanti, Camilla Hollanti
Published 2018-06-20Version 1
The problem of Private Information Retrieval (PIR) from coded storage systems with colluding, byzantine, and unresponsive servers is considered. An explicit scheme using an $[n,k]$ Reed-Solomon storage code is designed, protecting against $t$-collusion and handling up to $b$ byzantine and $r$ unresponsive servers, when $n>k+t+2b+r-1$. %, for some integer $\nu \geq 1$. This scheme achieves a PIR rate of $\frac{n-r-(k+2b+t-1)}{n-r}$. In the case where the capacity is known, namely when $k=1$, it is asymptotically capacity-achieving as the number of files grows. Lastly, the scheme is adapted to symmetric PIR.
$X$-secure $T$-private Information Retrieval from MDS Coded Storage with Byzantine and Unresponsive Servers
Private Information Retrieval From a Cellular Network With Caching at the Edge
Private Information Retrieval from MDS Coded Data in Distributed Storage Systems
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