Quantitative Monadic Second-Order Logic

Quantitative Monadic Second-Order Logic

While monadic second-order logic is a prominent logic for specifying languages of finite words, it lacks the power to compute quantitative properties, e.g. to count. An automata model capable of computing such properties are weighted automata, but logics equivalent to these automata have only recent...

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Bibliographic Details
Published in:2013 28th Annual ACM/IEEE Symposium on Logic in Computer Science pp. 113 - 122
Main Authors: Kreutzer, Stephan, Riveros, Cristian
Format: Conference Proceeding
Language:English
Published: IEEE 01-06-2013
Subjects:
Automata
Complexity theory
Computational modeling
Computer science
Semantics
Syntactics
Online Access:Get full text
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Summary:While monadic second-order logic is a prominent logic for specifying languages of finite words, it lacks the power to compute quantitative properties, e.g. to count. An automata model capable of computing such properties are weighted automata, but logics equivalent to these automata have only recently emerged. We propose a new framework for adding quantitative properties to logics specifying Boolean properties of words. We use this to define Quantitative Monadic Second-Order Logic (QMSO). In this way we obtain a simple logic which is equally expressive to weighted automata. We analyse its evaluation complexity, both data and combined complexity, and show completeness results for combined complexity. We further refine the analysis of this logic and obtain fragments that characterise exactly subclasses of weighted automata defined by the level of ambiguity allowed in the automata. In this way, we define a quantitative logic which has good decidability properties while being resonably expressive and enjoying a simple syntactical definition.
ISBN:1479904139
9781479904136
ISSN:1043-6871
2575-5528
DOI:10.1109/LICS.2013.16