Graph Structure and Monadic Second-Order Logic
A Language-Theoretic Approach

This book unifies and synthesizes research on graph structure over the last 25 years. The definitive reference for graduate students and researchers.

Bruno Courcelle (Author), Joost Engelfriet (Author)

9780521898331, Cambridge University Press

Hardback, published 14 June 2012

744 pages, 25 b/w illus.
24 x 16 x 4.1 cm, 1.27 kg

'In its huge breadth and depth the authors manage to provide a comprehensive study of monadic second-order logic on graphs covering almost all aspects of the theory that can be presented from a language theoretical or algebraic point of view. There is currently no other textbook or any other source that matches the range of materials covered in this book. As such it is a fantastic resource for those who to study this area [and] will undoubtedly turn into the standard reference for this area.' Stephan Kreutzer, Mathematical Reviews

The study of graph structure has advanced in recent years with great strides: finite graphs can be described algebraically, enabling them to be constructed out of more basic elements. Separately the properties of graphs can be studied in a logical language called monadic second-order logic. In this book, these two features of graph structure are brought together for the first time in a presentation that unifies and synthesizes research over the last 25 years. The authors not only provide a thorough description of the theory, but also detail its applications, on the one hand to the construction of graph algorithms, and, on the other to the extension of formal language theory to finite graphs. Consequently the book will be of interest to graduate students and researchers in graph theory, finite model theory, formal language theory, and complexity theory.

Foreword Maurice Nivat
Introduction
1. Overview
2. Graph algebras and widths of graphs
3. Equational and recognizable sets in many-sorted algebras
4. Equational and recognizable sets of graphs
5. Monadic second-order logic
6. Algorithmic applications
7. Monadic second-order transductions
8. Transductions of terms and words
9. Relational structures
Conclusion and open problems
References
Index of notation
Index.

Subject Areas: Discrete mathematics [PBD], Mathematical logic [PBCD]