Logic of transition systems

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Journal of Logic, Language and Information 3 (4):247-283 (1994)
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Abstract

Labeled transition systems are key structures for modeling computation. In this paper, we show how they lend themselves to ordinary logical analysis (without any special new formalisms), by introducing their standard first-order theory. This perspective enables us to raise several basic model-theoretic questions of definability, axiomatization and preservation for various notions of process equivalence found in the computational literature, and answer them using well-known logical techniques (including the Compactness theorem, Saturation and Ehrenfeucht games). Moreover, we consider what happens to this general theory when one restricts attention to special classes of transition systems (in particular, finite ones), as well as extended logical languages (in particular, infinitary first-order logic). We hope that this puts standard logical formalisms on the map as a serious option for a theory of computational processes. As a side benefit, our approach increases comparability with several other existing formalisms over labeled transition systems (such as Process Algebra or Modal Logic). We provide some pointers to this effect, too

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10.1007/bf01160018

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Author Profiles

Jan A. Bergstra
University of Amsterdam
Johan Van Benthem
University of Amsterdam

Citations of this work

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The Range of Modal Logic: An essay in memory of George Gargov.Johan van Benthem - 1999 - Journal of Applied Non-Classical Logics 9 (2):407-442.
The Range of Modal Logic: An essay in memory of George Gargov.Johan van Benthem - 1999 - Journal of Applied Non-Classical Logics 9 (2-3):407-442.
Infinitary propositional relevant languages with absurdity.Guillermo Badia - 2017 - Review of Symbolic Logic 10 (4):663-681.
Interpolation and Preservation in ${\cal M\kern-1pt L}{\omega1}$.Holger Sturm - 1998 - Notre Dame Journal of Formal Logic 39 (2):190-211.

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References found in this work

Model theory for infinitary logic.H. Jerome Keisler - 1971 - Amsterdam,: North-Holland Pub. Co..
Handbook of mathematical logic.Jon Barwise (ed.) - 1977 - New York: North-Holland.
Model Theory.Gebhard Fuhrken - 1976 - Journal of Symbolic Logic 41 (3):697-699.
Axiomatising the Logic of Computer Programming.Robert Goldblatt - 1985 - Journal of Symbolic Logic 50 (3):854-855.
Formalized Algorithmic Languages.A. Salwicki - 1974 - Journal of Symbolic Logic 39 (2):349-350.

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