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Project: Numerical Decomposition
Anton Leykin edited this page Jun 13, 2022
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4 revisions
- Current people involved: Tim Duff, Anton Leykin, Jose Rodriguez
- Goal: implement numerical irreducible decomposition for multiprojective varieties and related tools
- Current status: under development
Give a variety embedded in a product of projective spaces that is given by a system of multihomogeneous polynomial equations, we would like to describe it using (collections) of witness sets. (A witness set is a cornerstone concept of numerical algebraic geometry.)
The current plan is to
- implement most of the tools described in [1],
- revamp the current implementation (in
NumericalAlgebraicGeometry
package) of decomposition in the case of ambient affine/projective space (a single factor case) using u-generation in [2], - work on multiprojective u-generation in [2].
The old implementation of the numerical decomposition of an affine variety:
i1 : needsPackage "NumericalAlgebraicGeometry";
...
...
...
i5 : R = CC[x,y,z];
i6 : sph = x^2+y^2+z^2-1;
i7 : I = ideal {x*sph*(y-x^2), sph*(z-x^3)};
o7 : Ideal of R
i8 : numericalIrreducibleDecomposition I
o8 = a numerical variety with components in
dim 1: (dim=1,deg=1) (dim=1,deg=3)
dim 2: (dim=2,deg=2)
o8 : NumericalVariety
[1] A numerical toolkit for multiprojective varieties
Authors: Jonathan D. Hauenstein, Anton Leykin, Jose Israel Rodriguez, Frank Sottile
[2] u-generation: solving systems of polynomials equation-by-equation
Authors: Timothy Duff, Anton Leykin, Jose Israel Rodriguez
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