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LATA
2009
Springer
2009
Springer
Monadic Second-Order Logic for Graphs: Algorithmic and Language Theoretical Applications
This tutorial will present an overview of the use of Monadic Second-Order Logic to describe sets of finite graphs and graph transformations, in relation with the notions of tree-width and clique-width. It will review applications to the construction of algorithms, to Graph Theory and to the extension to graphs of Formal Language Theory concepts. We first explain the role of Logic. A graph, either finite or infinite, can be considered as a logical structure whose domain (the ground set of the logical structure) consists of the set of vertices ; a binary relation on this set represents adjacency. Graph properties can be expressed by logical formulas of different languages and classified accordingly. First-order formulas are rather weak in this respect because they can only express local properties, like having degree or diameter at most k for fixed k. Most properties of interest in Graph Theory can be expressed in second-order logic (this language allows quantifications on relati...
Real-time TrafficAutomata Theory | Formal Language Theory | LATA 2009 | Monadic Second-order Formulas | Monadic Second-order Logic |
| Added | 20 May 2010 |
| Updated | 20 May 2010 |
| Type | Conference |
| Year | 2009 |
| Where | LATA |
| Authors | Bruno Courcelle |
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