Basic Proof Theory
This introduction to the basic ideas of structural proof theory contains a thorough discussion and comparison of various types of formalization of first-order logic. Examples are given of several areas of application, namely: the metamathematics of pure first-order logic (intuitionistic as well as classical); the theory of logic programming; category theory; modal logic; linear logic; first-order arithmetic and second-order logic. In each case the aim is to illustrate the methods in relatively simple situations and then apply them elsewhere in much more complex settings. There are numerous exercises throughout the text. In general, the only prerequisite is a standard course in first-order logic, making the book ideal for graduate students and beginning researchers in mathematical logic, theoretical computer science and artificial intelligence. For the new edition, many sections have been rewritten to improve clarity, new sections have been added on cut elimination, and solutions to selected exercises have been included.
- Fills the gap between basic textbooks on logic and advanced monographs on proof theory
- Brings together basic results which are spread over many papers and books in the literature
- Written by two of the world's leading authorities
Reviews & endorsements
'This is a fine book. Any computer scientist with some logical background will benefit from studying it. It is written by two of the experts in the field and comes up to their usual standards of precision and care.' Ray Turner, Computer Journal
Product details
No date availablePaperback
9780521779111
432 pages
227 × 154 × 23 mm
0.595kg
3 b/w illus. 201 exercises
Table of Contents
- 1. Introduction
- 2. N-systems and H-systems
- 3. Gentzen systems
- 4. Cut elimination with applications
- 5. Bounds and permutations
- 6. Normalization for natural deduction
- 7. Resolution
- 8. Categorical logic
- 9. Modal and linear logic
- 10. Proof theory of arithmetic
- 11. Second-order logic
- Solutions to selected exercises. Bibliography
- Symbols and notation
- Index.