Construction of trigonometric box splines and the associated non-stationary subdivision schemes
From MaRDI portal
Publication:2114909
DOI10.1007/s40819-021-01069-4zbMath1499.65042OpenAlexW3176850867MaRDI QIDQ2114909
Hrushikesh Jena, Mahendra Kumar Jena
Publication date: 15 March 2022
Published in: International Journal of Applied and Computational Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s40819-021-01069-4
Numerical computation using splines (65D07) Computer-aided design (modeling of curves and surfaces) (65D17)
Related Items (4)
An introduction to a hybrid trigonometric box spline surface producing subdivision scheme ⋮ Shape preserving rational [3/2 Hermite interpolatory subdivision scheme] ⋮ Shape preserving Hermite subdivision scheme constructed from quadratic polynomial ⋮ A hybrid non-stationary subdivision scheme based on triangulation
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Regularity of non-stationary subdivision: a matrix approach
- Subdivision algorithms for the generation of box spline surfaces
- Box splines
- Convergence of univariate non-stationary subdivision schemes via asymptotic similarity
- Analysis of non-stationary Hermite subdivision schemes reproducing exponential polynomials
- Convergence and normal continuity analysis of nonstationary subdivision schemes near extraordinary vertices and faces
- A numerical approach for fractional order Riccati differential equation using B-spline operational matrix
- Positivity preserving interpolation by using rational quartic spline
- A non-stationary subdivision scheme for generalizing trigonometric spline surfaces to arbitrary meshes
- Wavelets from the loop scheme
- Elementary factorisation of box spline subdivision
- CONSTRUCTION OF COMPACTLY SUPPORTED WAVELETS FROM TRIGONOMETRIC B-SPLINES
- Fundamentals of Wavelets
- Introduction to the Mathematics of Subdivision Surfaces
- Modeling of Curves and Surfaces with MATLAB®
- Stationary subdivision
- Ten Lectures on Wavelets
- Multivariate Refinement Equations and Convergence of Subdivision Schemes
- Numerical investigation for the fractional nonlinear space‐time telegraph equation via the trigonometric Quintic B‐spline scheme
- Higher order B‐spline differential quadrature rule to approximate generalized Rosenau‐RLW equation
- A subdivision algorithm for trigonometric spline curves
This page was built for publication: Construction of trigonometric box splines and the associated non-stationary subdivision schemes
