Suppose two provers agree in a polynomial p and want to reveal a single value y=p(x) to a verifier where m is chosen arbitrarily by the verifier. Whereas honest provers should be able to agree on any polynomial p the verifier wants to be sure that with any (cheating) pair of provers the value y he receives is a polynomial function of x. We formalize this question and introduce multi-prover (quasi-)encoding schemes to solve it. Multi-prover quasi-encoding schemes are used to develop new interactive proof techniques. The main result of M. Bellare et al. (1993) is the existence of one-round four-prover interactive proof system for any language an NP achieving any constant error probability with O(log n) random bits and poly(log log n) answer-sizes. We improve this result in two respects. First we decrease the number of provers to three, and then we decrease the answer-size to a constant. Reduction of each parameter de critical for applications. When the error-probability is required to approach zero, our technique is efficient in the number of random bits and in the answer size.
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机译:假设两个证明在一个多项式p中一致,并且想要向验证者揭示一个单一的值y = p(x),其中m由验证者任意选择。诚实的证明者应该能够在任何多项式p上达成一致,验证者希望确保对于任何(作弊)证明者对,他收到的y值都是x的多项式函数。我们将这个问题形式化,并引入多证明(准)编码方案来解决。多证明者准编码方案用于开发新的交互式证明技术。 M. Bellare等人的主要结果。 (1993年)是针对任何一种语言的NP四证明者交互式证明系统的存在,NP具有O(log n)随机位和poly(log log n)答案大小的任何恒定错误概率。我们从两个方面改进此结果。首先,我们将证明者的数量减少到三个,然后将答案大小减少到一个常数。减少每个参数对于应用来说都是至关重要的。当要求差错概率接近零时,我们的技术在随机位数和答案大小方面都很有效。
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