Introduction to Mathematical Logic Resolution Principle, Second Edition in nine chapters, discusses Boolean algebra theory, propositional calculus and predicated calculus theory, resolution principle theory and the latest theory ofmultivalue logic. The book also includes supplement or altemations on the proofofthe completion of K in first-ordcr system, conceming "Quantitative Logic".
Chapter 2 Propositional Calculus
2.1 Propositions and their symbolization
2.2 Semantics of propositional calculus
2.3 Syntax of propositional calculus
Chapter 3 Semantics of First Order Predicate Calculus
3.1 First order languages
3.2 Interpretations and logically valid formulas
3.3 Logical equivalences
Chapter 4 Syntax of First Order Predicate Calculus
4.1 The formal system KL
4.2 Provable equivalence relations
4.3 Prenex normal forms
4.4 Completeness of the first order system KL
*4.5 Quantifier-free formulas
Chapter 5 Skolem's Standard Forms and Herbrand's Theorems
5.1 Introduction
5.2 Skolem standard forms
5.3 Clauses
*5.4 Regular function systems and regular universes
5.5 Herbrand universes and Herbrand's theorems
5.6 The Davis-Putnam method
Chapter 6 Resolution Principle
6.1 Resolution in propositional calculus
6.2 Substitutions and unifications
6.3 Resolution Principle in predicate calculus
6.4 Completeness theorem of Resolution Principle
6.5 A simple method for searching clause sets S
Chapter 7 Refinements of Resolution
7.1 Introduction
7.2 Semantic resolution
7.3 Lock resolution
7.4 Linear resolution
Chapter 9 Quantitative Logic
9.1 Quantitative logic theory in two-valued propositional logic system L
9.2 Quantitative logic theory in L ukasiewicz many-valued propositional logic systems Ln and Luk
9.3 Quantitative logic theory in many-valued R0-propositional logic systems L*n and L*
9.4 Structural characterizations of maximally consistent theories
9.5 Remarks on Godel and Product logic systems
Bibliography
Index
