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1 - An introduction to rippling

Published online by Cambridge University Press:  13 August 2009

Alan Bundy
Affiliation:
University of Edinburgh
David Basin
Affiliation:
ETH Zentrum, Switzerland
Dieter Hutter
Affiliation:
German Research Centre for Artificial Intelligence
Andrew Ireland
Affiliation:
Heriot-Watt University, Edinburgh
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Summary

Overview

This book describes rippling, a new technique for automating mathematical reasoning. Rippling captures a common pattern of reasoning in mathematics: the manipulation of one formula to make it resemble another. Rippling was originally developed for proofs by mathematical induction; it was used to make the induction conclusion more closely resemble the induction hypotheses. It was later found to have wider applicability, for instance to problems in summing series and proving equations.

The problem of automating reasoning

The automation of mathematical reasoning has been a long-standing dream of many logicians, including Leibniz, Hilbert, and Turing. The advent of electronic computers provided the tools to make this dream a reality, and it was one of the first tasks to be tackled. For instance, the Logic Theory Machine and the Geometry Theorem-Proving Machine were both built in the 1950s and reported in Computers and Thought (Feigenbaum & Feldman, 1963), the earliest textbook on artificial intelligence. Newell, Shaw and Simon's Logic Theory Machine (Newell et al., 1957), proved theorems in propositional logic, and Gelernter's Geometry Theorem-Proving Machine (Gelernter, 1963), proved theorems in Euclidean geometry.

This early work on automating mathematical reasoning showed how the rules of a mathematical theory could be encoded within a computer and how a computer program could apply them to construct proofs. But they also revealed a major problem: combinatorial explosion. Rules could be applied in too many ways.

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Publisher: Cambridge University Press
Print publication year: 2005

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