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Introduction to Noncommutative Gröbner Bases Theory

Published online by Cambridge University Press:  05 July 2011

By
V. Ufnarovski
Edited by
Bruno Buchberger  and
Franz Winkler
V. Ufnarovski
Affiliation:
Matematiska institutonen
Bruno Buchberger
Affiliation:
Johannes Kepler Universität Linz
Franz Winkler
Affiliation:
Johannes Kepler Universität Linz
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Summary

Abstract

The definitions and main results connected with Gröbner bases, Poincaré series, Hilbert series and Anick's resolution are formulated.

Introduction: Some Motivating Examples

The main difficulty in the studying the finitely presented noncommutative algebras is that in general most of the problems are unsolvable. For an illustration, consider the following example.

Example 1(Tsejtin, 1958) Let

A = 〈a, b, c, d|ac = ca, ad = da, bc = cb, bd = db, eca = ce, edb = de, cca = ccae〉.

It is impossible to give an algorithm determining whether two given words in the alphabet a, b, c, d, e are equal in the algebra A.

Nevertheless rather often (e.g. in the commutative or finite-dimensional cases) we are able to solve the corresponding word problem. The reason for this is the regular behaviour of the Gröbner bases in those cases. The aim of this article is to describe how to construct, analyse and use Gröbner bases in noncommutative algebras.

Let A = 〈X|R〉 be a finitely presented associative algebra over the field K. If I is the ideal generated by R in the free algebra KX〉 then A is isomorphic to the factor-algebra KX〉/I and every element of A can be presented as a linear combination of words in the alphabet X. Example 1 shows that one of the most important questions – which linear combinations present the same element in A – is far from trivial.

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Information
Gröbner Bases and Applications , pp. 259 - 280
Publisher: Cambridge University Press
Print publication year: 1998

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