AbstractWe first present necessary and sufficient conditions for a linear, binary, uniform, and stationary subdivision scheme to have polynomial reproduction of degree d and thus approximation order d+1. Our conditions are partly algebraic and easy to check by considering the symbol of a subdivision scheme, but also relate to the parameterization of the scheme. After discussing some special properties that hold for symmetric schemes, we then use our conditions to derive the maximum degree of polynomial reproduction for two families of symmetric schemes, the family of pseudo-splines and a new family of dual pseudo-splines
AbstractWe extend our previous work on interpolatory vector subdivision schemes to the multivariate ...
Abstract. Linear interpolatory subdivision schemes of Cr smoothness have approximation order at leas...
The Lane–Riesenfeld algorithm for generating uniform B-splines provides a prototype for subdivision ...
We first present necessary and sufficient conditions for a linear, binary, uniform, and stationary s...
AbstractWe first present necessary and sufficient conditions for a linear, binary, uniform, and stat...
AbstractIn this paper, we study the ability of convergent subdivision schemes to reproduce polynomia...
We present an accurate investigation of the algebraic conditions that the symbols of a nonsingular, ...
This paper presents 6-point subdivision schemes with cubic precision. We first derive a relation bet...
This article deals with general formulae of parametric and non parametric bivariate subdivision sche...
We study scalar multivariate non-stationary subdivision schemes with a general integer dilation matr...
In this paper we describe a general, computationally feasible strategy to deduce a family of interpo...
Subdivision schemes are iterative methods for the design of smooth curves and surfaces. Any linear ...
In this paper we describe a general, computationally feasible strategy to deduce a family of interpo...
The four-point subdivision scheme is well known as an interpolating subdivision scheme, but it has r...
In this work, we present explicitly a general formula for the mask of (2n+ 4)-point symmetric subdiv...
AbstractWe extend our previous work on interpolatory vector subdivision schemes to the multivariate ...
Abstract. Linear interpolatory subdivision schemes of Cr smoothness have approximation order at leas...
The Lane–Riesenfeld algorithm for generating uniform B-splines provides a prototype for subdivision ...
We first present necessary and sufficient conditions for a linear, binary, uniform, and stationary s...
AbstractWe first present necessary and sufficient conditions for a linear, binary, uniform, and stat...
AbstractIn this paper, we study the ability of convergent subdivision schemes to reproduce polynomia...
We present an accurate investigation of the algebraic conditions that the symbols of a nonsingular, ...
This paper presents 6-point subdivision schemes with cubic precision. We first derive a relation bet...
This article deals with general formulae of parametric and non parametric bivariate subdivision sche...
We study scalar multivariate non-stationary subdivision schemes with a general integer dilation matr...
In this paper we describe a general, computationally feasible strategy to deduce a family of interpo...
Subdivision schemes are iterative methods for the design of smooth curves and surfaces. Any linear ...
In this paper we describe a general, computationally feasible strategy to deduce a family of interpo...
The four-point subdivision scheme is well known as an interpolating subdivision scheme, but it has r...
In this work, we present explicitly a general formula for the mask of (2n+ 4)-point symmetric subdiv...
AbstractWe extend our previous work on interpolatory vector subdivision schemes to the multivariate ...
Abstract. Linear interpolatory subdivision schemes of Cr smoothness have approximation order at leas...
The Lane–Riesenfeld algorithm for generating uniform B-splines provides a prototype for subdivision ...