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RECURSIVE AXIOMATISATIONS FROM SEPARATION PROPERTIES

Part of: Model theory Algebraic structures Graph theory General logic

Published online by Cambridge University Press:  03 February 2021

ROB EGROT
ROB EGROT*
Affiliation:
FACULTY OF INFORMATION AND COMMUNICATION TECHNOLOGY MAHIDOL UNIVERSITY 999 PHUTTHAMONTHON 4 RD, SALAYA NAKHON PATHOM 73170, THAILANDE-mail: robert.egr@mahidol.ac.th
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Abstract

We define a fragment of monadic infinitary second-order logic corresponding to an abstract separation property. We use this to define the concept of a separation subclass. We use model theoretic techniques and games to show that separation subclasses whose axiomatisations are recursively enumerable in our second-order fragment can also be recursively axiomatised in their original first-order language. We pin down the expressive power of this formalism with respect to first-order logic, and investigate some questions relating to decidability and computational complexity. As applications of these results, by showing that certain classes can be straightforwardly defined as separation subclasses, we obtain first-order axiomatisability results for these classes. In particular we apply this technique to graph colourings and a class of partial algebras arising from separation logic.

Keywords

first-order axiomatisabilitygenerating recursive axiomatisationsrepresentable posetsgraph colouringsharmonious colouringsdisjoint union partial algebras

MSC classification

Primary: 03C98: Applications of model theory
Secondary: 03B70: Logic in computer science 05C15: Coloring of graphs and hypergraphs 08A55: Partial algebras
Type
Article
Information
The Journal of Symbolic Logic , Volume 86 , Issue 3 , September 2021 , pp. 1228 - 1258
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Copyright
© Association for Symbolic Logic 2021

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