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2015 | OriginalPaper | Chapter

Some Results on Interactive Proofs for Real Computations

Authors : Martijn Baartse, Klaus Meer

Published in: Evolving Computability

Publisher: Springer International Publishing

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Abstract

We study interactive proofs in the framework of real number complexity theory as introduced by Blum, Shub, and Smale. Shamir’s famous result characterizes the class IP as PSPACE or, equivalently, as PAT and PAR in the Turing model. Since space resources alone are known not to make much sense in real number computations the question arises whether IP can be similarly characterized by one of the latter classes. Ivanov and de Rougemont [9] started this line of research showing that an analogue of Shamir’s result holds in the additive Blum-Shub-Smale model of computation when only Boolean messages can be exchanged. Here, we introduce interactive proofs in the full BSS model. As main result we prove an upper bound for the class \(\mathrm{IP}_{{\mathbb R}}\). It gives rise to the conjecture that a characterization of \(\mathrm{IP}_{{\mathbb R}}\) will not be given via one of the real complexity classes \(\mathrm{PAR}_{{\mathbb R}}\) or \(\mathrm{PAT}_{{\mathbb R}}\). We report on ongoing approaches to prove as well interesting lower bounds for \(\mathrm{IP}_{{\mathbb R}}\).

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previous chapter Universality in Molecular and Cellular Computing

next chapter Prime Model with No Degree of Autostability Relative to Strong Constructivizations

The simultaneous requirement of exponential time and polynomial space excludes the above mentioned coding trick from [11] and makes the definition meaningful.

This of course only makes sense after \(\mathrm{MA}\exists _{{\mathbb R}}\) has been defined precisely.

Though formally the classes in [9] are defined a bit differently it is easy to see that their protocols used to prove the theorem fit into \(\mathrm{IP}_{{\mathbb R}}\).

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Title: Some Results on Interactive Proofs for Real Computations
Authors: Martijn Baartse
Klaus Meer
Publisher: Springer International Publishing
Book: Evolving Computability
Print ISBN: 978-3-319-20027-9

Electronic ISBN: 978-3-319-20028-6

Copyright Year: 2015
DOI: https://doi.org/10.1007/978-3-319-20028-6_11

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