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CASC
2010
Springer

Factorization of Polynomials and GCD Computations for Finding Universal Denominators

13 years 11 months ago
Factorization of Polynomials and GCD Computations for Finding Universal Denominators
We discuss the algorithms which, given a linear difference equation with rational function coefficients over a field k of characteristic 0, compute a polynomial U(x) ∈ k[x] (a universal denominator) such that the denominator of each of rational solutions (if exist) of the given equation divides U(x). We consider two types of such algorithms. One of them is based on constructing a set of irreducible polynomials that are candidates for divisors of denominators of rational solutions, and on finding a bound for the exponent of each of these candidates (the full factorization of polynomials is used). The second one is related to earlier algorithms for finding universal denominators, where the computation of gcd was used instead of the full factorization. The algorithms are applicable to scalar equations of arbitrary orders as well as to systems of first-order equations. A complexity analysis and a time comparison of the algorithms implemented in Maple are presented.
Sergei A. Abramov, A. Gheffar, D. E. Khmelnov
Added 13 Jan 2011
Updated 13 Jan 2011
Type Journal
Year 2010
Where CASC
Authors Sergei A. Abramov, A. Gheffar, D. E. Khmelnov
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