Finite-State Complexity and the Size of Transducers

Cristian Calude; Kai Salomaa; Tania Roblot

Journal ArticleOPEN ACCESS

Finite-State Complexity and the Size of Transducers

Calude C
Salomaa K
Roblot T

Electronic Proceedings in Theoretical Computer Science (2010) 31 38-47

DOI: 10.4204/eptcs.31.6

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Abstract

Finite-state complexity is a variant of algorithmic information theory obtained by replacing Turing machines with finite transducers. We consider the state-size of transducers needed for minimal descriptions of arbitrary strings and, as our main result, we show that the state-size hierarchy with respect to a standard encoding is infinite. We consider also hierarchies yielded by more general computable encodings.

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Calude, C., Salomaa, K., & Roblot, T. (2010). Finite-State Complexity and the Size of Transducers. Electronic Proceedings in Theoretical Computer Science, 31, 38–47. https://doi.org/10.4204/eptcs.31.6

Finite-State Complexity and the Size of Transducers

Abstract

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