New Bounds and a Generalization for Share Conversion for 3-Server PIR

Anat Paskin-Cherniavsky, Olga Nissenbaum

نتاج البحث: نشر في مجلةمقالةمراجعة النظراء

2 اقتباسات (Scopus)

ملخص

Private Information Retrieval (PIR) protocols, which allow the client to obtain data from servers without revealing its request, have many applications such as anonymous communication, media streaming, blockchain security, advertisement, etc. Multi-server PIR protocols, where the database is replicated among the non-colluding servers, provide high efficiency in the informationtheoretic setting. Beimel et al. in CCC 12’ (further referred to as BIKO) put forward a paradigm for constructing multi-server PIR, capturing several previous constructions for k ≥ 3 servers, as well as improving the best-known share complexity for 3-server PIR. A key component there is a share conversion scheme from corresponding linear three-party secret sharing schemes with respect to a certain type of “modified universal” relation. In a useful particular instantiation of the paradigm, they used a share conversion from (2, 3)-CNF over ℤm to three-additive sharing over ℤβp for primes p1, p2, p where p1 ≠ p2 and m = p1 · p2, and the relation is modified universal relation CSm . They reduced the question of the existence of the share conversion for a triple (p1, p2, p) to the (in)solvability of a certain linear system over ℤp, and provided an efficient (in m, log p) construction of such a sharing scheme. Unfortunately, the size of the system is Θ(m2 ) which entails the infeasibility of a direct solution for big m’s in practice. Paskin–Cherniavsky and Schmerler in 2019 proved the existence of the conversion for the case of odd p1, p2 when p = p1, obtaining in this way infinitely many parameters for which the conversion exists, but also for infinitely many of them it remained open. In this work, using some algebraic techniques from the work of Paskin–Cherniavsky and Schmerler, we prove the existence of the conversion for even m’s in case p = 2 (we computed β in this case) and the absence of the conversion for even m’s in case p > 2. This does not improve the concrete efficiency of 3-server PIR; however, our result is promising in a broader context of constructing PIR through composition techniques with k ≥ 3 servers, using the relation CSm where m has more than two prime divisors. Another our suggestion about 3-server PIR is that it’s possible to achieve a shorter server’s response using the relation CSm for extended Sm ⊃ Sm . By computer search, in BIKO framework we found several such sets for small m’s which result in share conversion from (2, 3)-CNF over ℤm to 3-additive secret sharing over ℤβ′ p, where β > 0 is several times less than β, which implies several times shorter server’s response. We also suggest that such extended sets Sm can result in better PIR due to the potential existence of matching vector families with the higher Vapnik-Chervonenkis dimension.

اللغة الأصليةالإنجليزيّة
رقم المقال497
دوريةEntropy
مستوى الصوت24
رقم الإصدار4
المعرِّفات الرقمية للأشياء
حالة النشرنُشِر - أبريل 2022

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