Gröbner bases of bihomogeneous ideals generated by polynomials of bidegree (1,1): Algorithms and complexity
Identifieur interne : 002400 ( Main/Exploration ); précédent : 002399; suivant : 002401Gröbner bases of bihomogeneous ideals generated by polynomials of bidegree (1,1): Algorithms and complexity
Auteurs : Jean-Charles Faugère [France] ; Mohab Safey El Din [France] ; Pierre-Jean Spaenlehauer [France]Source :
- Journal of Symbolic Computation [ 0747-7171 ] ; 2011-04.
English descriptors
Abstract
Solving multihomogeneous systems, as a wide range of \emph{structured algebraic systems} occurring frequently in practical problems, is of first importance. Experimentally, solving these systems with Gröbner bases algorithms seems to be easier than solving homogeneous systems of the same degree. Nevertheless, the reasons of this behaviour are not clear. In this paper, we focus on bilinear systems (i.e. bihomogeneous systems where all equations have bidegree $(1,1)$). Our goal is to provide a theoretical explanation of the aforementioned experimental behaviour and to propose new techniques to speed up the Gröbner basis computations by using the multihomogeneous structure of those systems. The contributions are theoretical and practical. First, we adapt the classical $F_5$ criterion to avoid reductions to zero which occur when the input is a set of bilinear polynomials. We also prove an explicit form of the Hilbert series of bihomogeneous ideals generated by generic bilinear polynomials and give a new upper bound on the degree of regularity of generic affine bilinear systems. We propose also a variant of the $F_5$ Algorithm dedicated to multihomogeneous systems which exploits a structural property of the Macaulay matrix which occurs on such inputs. Experimental results show that this variant requires less time and memory than the classical homogeneous $F_5$ Algorithm. Lastly, we investigate the complexity of computing a Gröbner basis for the grevlex ordering of a generic $0$-dimensional affine bilinear system over $k[x_1,\ldots, x_{n_x}, y_1,\ldots, y_{n_y}]$. In particular, we show that this complexity is upper bounded by $O\left({{n_x+n_y+\min(n_x+1,n_y+1)}\choose{\min(n_x+1,n_y+1)}}^\omega\right)$, which is polynomial in $n_x+n_y$ (i.e. the number of unknowns) when $\min(n_x,n_y)$ is constant.
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DOI: 10.1016/j.jsc.2010.10.014
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Experimentally, solving these systems with Gröbner bases algorithms seems to be easier than solving homogeneous systems of the same degree. Nevertheless, the reasons of this behaviour are not clear. In this paper, we focus on bilinear systems (i.e. bihomogeneous systems where all equations have bidegree $(1,1)$). Our goal is to provide a theoretical explanation of the aforementioned experimental behaviour and to propose new techniques to speed up the Gröbner basis computations by using the multihomogeneous structure of those systems. The contributions are theoretical and practical. First, we adapt the classical $F_5$ criterion to avoid reductions to zero which occur when the input is a set of bilinear polynomials. We also prove an explicit form of the Hilbert series of bihomogeneous ideals generated by generic bilinear polynomials and give a new upper bound on the degree of regularity of generic affine bilinear systems. We propose also a variant of the $F_5$ Algorithm dedicated to multihomogeneous systems which exploits a structural property of the Macaulay matrix which occurs on such inputs. Experimental results show that this variant requires less time and memory than the classical homogeneous $F_5$ Algorithm. Lastly, we investigate the complexity of computing a Gröbner basis for the grevlex ordering of a generic $0$-dimensional affine bilinear system over $k[x_1,\ldots, x_{n_x}, y_1,\ldots, y_{n_y}]$. In particular, we show that this complexity is upper bounded by $O\left({{n_x+n_y+\min(n_x+1,n_y+1)}\choose{\min(n_x+1,n_y+1)}}^\omega\right)$, which is polynomial in $n_x+n_y$ (i.e. the number of unknowns) when $\min(n_x,n_y)$ is constant.</div></front></TEI><affiliations><list><country><li>France</li></country><region><li>Grand Est</li><li>Lorraine (région)</li></region><settlement><li>Metz</li><li>Nancy</li></settlement><orgName><li>Université de Lorraine</li></orgName></list><tree><country name="France"><noRegion><name sortKey="Faugere, Jean Charles" sort="Faugere, Jean Charles" uniqKey="Faugere J" first="Jean-Charles" last="Faugère">Jean-Charles Faugère</name></noRegion><name sortKey="Safey El Din, Mohab" sort="Safey El Din, Mohab" uniqKey="Safey El Din M" first="Mohab" last="Safey El Din">Mohab Safey El Din</name><name sortKey="Spaenlehauer, Pierre Jean" sort="Spaenlehauer, Pierre Jean" uniqKey="Spaenlehauer P" first="Pierre-Jean" last="Spaenlehauer">Pierre-Jean Spaenlehauer</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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