The following pages link to Rudolf Winkel (Q172373):
Displaying 20 items.
- On the expansion of Schur and Schubert polynomials into standard elementary monomials (Q1269460) (← links)
- Diagram rules for the generation of Schubert polynomials (Q1284466) (← links)
- An exponential formula for polynomial vector fields (Q1362620) (← links)
- A combinatorial bijection between standard Young tableaux and reduced words of Grassmannian permutations (Q1380705) (← links)
- Recursive and combinatorial properties of Schubert polynomials (Q1380717) (← links)
- Schubert functions and the number of reduced words of permutations (Q1380718) (← links)
- On the multiplication of Schubert polynomials (Q1383434) (← links)
- Sequences of symmetric polynomials and combinatorial properties of tableaux (Q1385239) (← links)
- A derivation of Kohnert's algorithm from Monk's rule (Q1423007) (← links)
- On a generalization of Bernstein polynomials and Bézier curves based on umbral calculus. II: De Casteljau algorithm (Q1632375) (← links)
- On a generalization of Bernstein polynomials and Bézier curves based on umbral calculus. III: Blossoming (Q1632498) (← links)
- Schubert polynomials of types A-D (Q1805896) (← links)
- An exponential formula for polynomial vector fields. II: Lie series, exponential substitution, and rooted trees (Q1970021) (← links)
- A transfer principle in the real plane from nonsingular algebraic curves to polynomial vector fields (Q1971732) (← links)
- On a generalization of Bernstein polynomials and Bézier curves based on umbral calculus (Q2513781) (← links)
- (Q4498190) (← links)
- (Q4851804) (← links)
- From quantum cohomology to algebraic combinatorics: The example of flag manifolds (Q5930079) (← links)
- A combinatorial derivation of the Poincaré polynomials of the finite irreducible Coxeter groups (Q5946749) (← links)
- Generalized Bernstein polynomials and Bézier curves: an application of umbral calculus to computer aided geometric design (Q5953150) (← links)
