FUNDAMENTALNAYA
I PRIKLADNAYA MATEMATIKA
(FUNDAMENTAL AND APPLIED MATHEMATICS)
2004, VOLUME 10, NUMBER 3, PAGES 23-71
Standard bases concordant with the norm and computations in ideals and
polylinear recurring sequences
E. V. Gorbatov
Abstract
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Standard bases of ideals of the polynomial ring
over a commutative Artinian chain ring that are concordant with
the norm on have been investigated by
D. A. Mikhailov, A. A. Nechaev, and the author.
In this paper we continue this investigation.
We introduce a new order on terms and a new reduction
algorithm, using the coordinate decomposition of elements
from .
We prove that any ideal has a unique reduced (in terms of this
algorithm) standard basis.
We solve some classical computational problems: the construction of
a set of coset representatives, the finding of a set of
generators of the syzygy module, the evaluation of ideal quotients and
intersections, and the elimination problem.
We construct an algorithm testing the cyclicity of an LRS-family
, which is
a generalization of known results to the multivariate case.
We present new conditions determining whether a Ferre
diagram
and a full system of -monic polynomials
form a shift register.
On the basis of these results, we construct an algorithm for lifting
a reduced Gröbner basis of a monic ideal to
a standard basis with the same cardinality.
Location: http://mech.math.msu.su/~fpm/eng/k04/k043/k04303h.htm
Last modified: June 2, 2005