Computational Arithmetic Geometry: I. Sentences Nearly in the Polynomial Hierarchy

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We consider the average-case complexity of some otherwise undecidable or open Diophantine problems. More precisely, consider the following:   I. Given a polynomial f∈Z[v, x, y], decide the sentence ∃v ∀x ∃yf(v, x, y)=?0, with all three quantifiers ranging over N (or Z).   II. Given polynomials f1, …, fm∈Z[x1, …, xn] with m⩾n, decide if there is a rational solution to f1=…=fm=0. We show that, for almost all inputs, problem (I) can be done within coNP. The decidability of problem (I), over N and Z, was previously unknown. We also show that the Generalized Riemann Hypothesis (GRH) implies that, for almost all inputs, problem (II) can be done via within the complexity class PNPNP, i.e., within the third level of the polynomial hierarchy. The decidability of problem (II), even in the case m=n=2, remains open in general. Along the way, we prove results relating polynomial system solving over C, Q, and Z/pZ. We also prove a result on Galois groups associated to sparse polynomial systems, which may be of independent interest. A practical observation is that the aforementioned Diophantine problems should perhaps be avoided in the construction of cryptosystems.

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论文评审过程:Received 23 June 1999, Available online 25 May 2002.

论文官网地址:https://doi.org/10.1006/jcss.2000.1728