# PGeomlib

Resolution of an algebraic singularity by power geometry algorithms A polynomial in three variables is considered near a singular point where the polynomial itself and its partial derivatives vanish. A method for calculating asymptotic expansions in parameters for all branches of the set of roots of the polynomial near the singular point is proposed. The method is based on spatial power geometry and uses modern computer algebra algorithms: for calculating Gr”obner bases and for work with algebraic curves. The implementation of the method is demonstrated on the example of a sixth-degree polynomial in three variables considered near infinity and near a degenerate singular point.

## References in zbMATH (referenced in 6 articles , 1 standard article )

Showing results 1 to 6 of 6.

Sorted by year (- Bruno, A. D.: Algorithms for solving an algebraic equation (2018)
- Batkhin, A. B.: A real variety with boundary and its global parameterization (2017)
- Batkhin, A. B.: Parameterization of the discriminant set of a polynomial (2016)
- Batkhin, A. B.; Bruno, A. D.: Investigation of a real algebraic surface (2015)
- Batkhin, A. B.; Bruno, A. D.; Varin, V. P.: Stability sets of multiparameter Hamiltonian systems (2012)
- Bruno, A. D.; Batkhin, A. B.: Resolution of an algebraic singularity by power geometry algorithms (2012)