First-Order Logic and Automated Theorem Proving - Melvin Fitting

First-Order Logic and Automated Theorem Proving

(Autor)

Buch | Softcover
326 Seiten
2013 | 2nd ed. 1996. Softcover reprint of the original 2nd ed. 1996
Springer-Verlag New York Inc.
978-1-4612-7515-2 (ISBN)
90,94 inkl. MwSt
There are many kinds of books on formal logic. It does contain a thorough presentation of formal logic and many proof techniques, and as such it contains all the material one would expect to find in a course in formal logic covering completeness but, not incompleteness issues.
There are many kinds of books on formal logic. Some have philosophers as their intended audience, some mathematicians, some computer scien­ tists. Although there is a common core to all such books, they will be very different in emphasis, methods, and even appearance. This book is intended for computer scientists. But even this is not precise. Within computer science formal logic turns up in a number of areas, from pro­ gram verification to logic programming to artificial intelligence. This book is intended for computer scientists interested in automated theo­ rem proving in classical logic. To be more precise yet, it is essentially a theoretical treatment, not a how-to book, although how-to issues are not neglected. This does not mean, of course, that the book will be of no interest to philosophers or mathematicians. It does contain a thorough presentation of formal logic and many proof techniques, and as such it contains all the material one would expect to find in a course in formal logic covering completeness but, not incompleteness issues. The first item to be addressed is, What are we talking about and why are we interested in it? We are primarily talking about truth as used in mathematical discourse, and our interest in it is, or should be, self­ evident. Truth is a semantic concept, so we begin with models and their properties. These are used to define our subject.

1 Background.- 2 Propositional Logic.- 2.1 Introduction.- 2.2 Propositional Logic—Syntax.- 2.3 Propositional Logic—Semantics.- 2.4 Boolean Valuations.- 2.5 The Replacement Theorem.- 2.6 Uniform Notation.- 2.7 König’s Lemma.- 2.8 Normal Forms.- 2.9 Normal Form Implementations.- 3 Semantic Tableaux and Resolution.- 3.1 Propositional Semantic Tableaux.- 3.2 Propositional Tableaux Implementations.- 3.3 Propositional Resolution.- 3.4 Soundness.- 3.5 Hintikka’s Lemma.- 3.6 The Model Existence Theorem.- 3.7 Tableau and Resolution Completeness.- 3.8 Completeness With Restrictions.- 3.9 Propositional Consequence.- 4 Other Propositional Proof Procedures.- 4.1 Hilbert Systems.- 4.2 Natural Deduction.- 4.3 The Sequent Calculus.- 4.4 The Davis-Putnam Procedure.- 4.5 Computational Complexity.- 5 First-Order Logic.- 5.1 First-Order Logic—Syntax.- 5.2 Substitutions.- 5.3 First-Order Semantics.- 5.4 Herbrand Models.- 5.5 First-Order Uniform Notation.- 5.6 Hintikka’s Lemma.- 5.7 Parameters.- 5.8 The Model Existence Theorem.- 5.9 Applications.- 5.10 Logical Consequence.- 6 First-Order Proof Procedures.- 6.1 First-Order Semantic Tableaux.- 6.2 First-Order Resolution.- 6.3 Soundness.- 6.4 Completeness.- 6.5 Hilbert Systems.- 6.6 Natural Deduction and Gentzen Sequents.- 7 Implementing Tableaux and Resolution.- 7.1 What Next.- 7.2 Unification.- 7.3 Unification Implemented.- 7.4 Free-Variable Semantic Tableaux.- 7.5 A Tableau Implementation.- 7.6 Free-Variable Resolution.- 7.7 Soundness.- 7.8 Free-Variable Tableau Completeness.- 7.9 Free-Variable Resolution Completeness.- 8 Further First-Order Features.- 8.1 Introduction.- 8.2 The Replacement Theorem.- 8.3 Skolemization.- 8.4 Prenex Form.- 8.5 The AE-Calculus.- 8.6 Herbrand’s Theorem.- 8.7 Herbrand’s Theorem, Constructively.-8.8 Gentzen’s Theorem.- 8.9 Cut Elimination.- 8.10 Do Cuts Shorten Proofs?.- 8.11 Craig’s Interpolation Theorem.- 8.12 Craig’s Interpolation Theorem—Constructively.- 8.13 Beth’s Definability Theorem.- 8.14 Lyndon’s Homomorphism Theorem.- 9 Equality.- 9.1 Introduction.- 9.2 Syntax and Semantics.- 9.3 The Equality Axioms.- 9.4 Hintikka’s Lemma.- 9.5 The Model Existence Theorem.- 9.6 Consequences.- 9.7 Tableau and Resolution Systems.- 9.8 Alternate Tableau and Resolution Systems.- 9.9 A Free-Variable Tableau System With Equality.- 9.10 A Tableau Implementation With Equality.- 9.11 Paramodulation.- References.

Reihe/Serie Texts in Computer Science
Zusatzinfo XVIII, 326 p.
Verlagsort New York, NY
Sprache englisch
Maße 170 x 244 mm
Themenwelt Mathematik / Informatik Informatik Theorie / Studium
Mathematik / Informatik Mathematik Allgemeines / Lexika
Mathematik / Informatik Mathematik Logik / Mengenlehre
ISBN-10 1-4612-7515-6 / 1461275156
ISBN-13 978-1-4612-7515-2 / 9781461275152
Zustand Neuware
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