Submit an Enquiry or Call Us +44 (0) 1482 384660
Image for Automation of Reasoning : Classical Papers on Computational Logic 1967-1970

Automation of Reasoning : Classical Papers on Computational Logic 1967-1970 - 2

By: Siekmann, Jorg(Edited by) Wrightson, Graham(Edited by)

Part of the Symbolic computation/Artificial Intelligence series
3540120440 / 9783540120445
Hardback
01/04/1983
Usually dispatched within 4 weeks
Germany
1200 grams 649 pages, biography
Professional & Vocational  Learn More

"Kind of crude, but it works, boy, it works!" AZan NeweZZ to Herb Simon, Christmas 1955 In 1954 a computer program produced what appears to be the first computer generated mathematical proof: Written by M.

Davis at the Institute of Advanced Studies, USA, it proved a number theoretic theorem in Presburger Arithmetic.

Christmas 1955 heralded a computer program which generated the first proofs of some propositions of Principia Mathematica, developed by A.

Newell, J. Shaw, and H. Simon at RAND Corporation, USA. In Sweden, H. Prawitz, D. Prawitz, and N. Voghera produced the first general program for the full first order predicate calculus to prove mathematical theorems; their computer proofs were obtained around 1957 and 1958, about the same time that H.

Gelernter finished a computer program to prove simple high school geometry theorems.

Since the field of computational logic (or automated theorem proving) is emerging from the ivory tower of academic research into real world applications, asserting also a definite place in many university curricula, we feel the time has corne to examine and evaluate its history. The article by Martin Davis in the first of this series of volumes traces the most influential ideas back to the 'prehistory' of early logical thought showing how these ideas influenced the underlying concepts of most early automatic theorem proving programs.

BIC:

PBC Mathematical foundations, UYA Mathematical theory of computation, UYQ Artificial intelligence

Our price£109.99