Linear Logic in Computer Science: 316 (London Mathematical Society Lecture Note Series, Series Number 316)
Cambridge University Press
Edition: Illustrated, 11/18/2004
EAN 9780521608572, ISBN10: 0521608570
Paperback, 392 pages, 22.9 x 15.2 x 2.3 cm
Language: English
Linear logic is a branch of proof theory which provides refined tools for the study of the computational aspects of proofs. These tools include a duality-based categorical semantics, an intrinsic graphical representation of proofs, the introduction of well-behaved non-commutative logical connectives, and the concepts of polarity and focalisation. These various aspects are illustrated here through introductory tutorials as well as more specialised contributions, with a particular emphasis on applications to computer science: denotational semantics, lambda-calculus, logic programming and concurrency theory. The volume is rounded-off by two invited contributions on new topics rooted in recent developments of linear logic. The book derives from a summer school that was the climax of the EU Training and Mobility of Researchers project 'Linear Logic in Computer Science'. It is an excellent introduction to some of the most active research topics in the area.
Preface
List of contributors
Part I. Tutorials
1. Category theory for linear logicians R. Blute and Ph. Scott
2. Proof nets and the x-calculus S. Guerrini
3. An overview of linear logic programming D. Miller
4. Linearity and nonlinearity in distributed computation G. Winskel
Part II. Refereed Articles
5. An axiomatic approach to structural rules for locative linear logic J. M. Andreoli
6. An introduction to uniformity in ludics C. Faggian, M. R. Fleury-Donnadieu and M. Quatrini
7. Slicing polarized addictive normalization O. Laurent and L. Toratora De Falco
8. A topological correctness criterion for muliplicative noncommutative logic P.A. Melliès
Part III. Invited Articles
9. Bicategories in algebra and linguistics J. Lambek
10. Between logic and quantic
a tract J. Y. Girard.