Jonas Österberg scite author profile

The values of the determinant of Vandermonde matrices with real elements are analyzed both visually and analytically over the unit sphere in various dimensions. For three dimensions some generalized Vandermonde matrices are analyzed visually. The extreme points of the ordinary Vandermonde determinant on finite-dimensional unit spheres are given as the roots of rescaled Hermite polynomials and a recursion relation is provided for the polynomial coefficients. Analytical expressions for these roots are also given for dimension three to seven. A transformation of the optimization problem is provided and some relations between the ordinary and generalized Vandermonde matrices involving limits are discussed.

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Optimization of the Wishart Joint Eigenvalue Probability Density Distribution Based on the Vandermonde Determinant

Muhumuza

Lundengård

Österberg

et al. 2020

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Extreme Points of the Vandermonde Determinant on Surfaces Implicitly Determined by a Univariate Polynomial

Muhumuza

Lundengård

Österberg

et al. 2020

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Optimization of the Determinant of the Vandermonde Matrix and Related Matrices

Lundengård

Österberg

Silvestrov

2017

Methodol Comput Appl Probab

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The value of the Vandermonde determinant is optimized over various surfaces, including the sphere, ellipsoid and torus. Lagrange multipliers are used to find a system of polynomial equations which give the local extreme points in its solutions. Using Gröbner basis and other techniques the extreme points are given either explicitly or as roots of polynomials in one variable. The behavior of the Vandermonde determinant is also presented visually in some interesting cases.

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