Result 1 to 20 of 23 total
A class of nonlinear four-point subdivision schemes. (English)
Adv. Comput. Math. 37, No. 2, 151-190 (2012).
1
Error bounds for a class of subdivision schemes based on the two-scale refinement equation. (English)
J. Comput. Appl. Math. 236, No. 2, 265-278 (2011).
2
Optimal quality for image fusion with interpolatory parametric filters. (English)
Math. Comput. Simul. 81, No. 10, 2307-2316 (2011).
3
Tight numerical bounds for digital terrain modeling by interpolatory subdivision schemes. (English)
Math. Comput. Simul. 81, No. 10, 2258-2269 (2011).
4
Multiresolution analysis and supercompact multiwavelets for surfaces. (English)
Math. Comput. Simul. 81, No. 10, 2129-2149 (2011).
5
Error bounds for a class of subdivision schemes based on the two-scale refinement equation (English)
J. Computational Applied Mathematics 236, No. 2, 265-278 (2011).
6
Non-uniform multiresolution analysis with supercompact multiwavelets. (English)
J. Comput. Appl. Math. 235, No. 1, 334-340 (2010).
7
Multiresolution analysis for minimal energy $C ^{r }$-surfaces on Powell-Sabin type meshes. (English)
Dæhlen, Morten (ed.) et al., Mathematical methods for curves and surfaces. 7th international conference, MMCS 2008, Tønsberg, Norway, June 26‒July 1, 2008. Revised selected papers. Berlin: Springer (ISBN 978-3-642-11619-3/pbk). Lecture Notes in Computer Science 5862, 209-223 (2010).
8
Non-uniform multiresolution analysis with supercompact multiwavelets (English)
J. Computational Applied Mathematics 235, No. 1, 334-340 (2010).
9
The frenet frame beyond classical differential geometry: application to cartographic generalization of roads. (English)
Math. Comput. Simul. 79, No. 12, 3556-3566 (2009).
10
Exact error bounds for the reconstruction processes using interpolating wavelets. (English)
Math. Comput. Simul. 79, No. 12, 3547-3555 (2009).
11
$l^\infty $-stability for linear multiresolution algorithms: A new explicit approach. III: The 2-D case. (English)
Appl. Math. Comput. 206, No. 1, 104-112 (2008).
12
$l^\infty $-stability for linear multiresolution algorithms: A new explicit approach. II: The cases of symlets, Coiflets, biorthogonal wavelets and supercompact multiwavelets. (English)
Appl. Math. Comput. 206, No. 1, 92-103 (2008).
13
$l^\infty $-stability for linear multiresolution algorithms: A new explicit approach. I: The basic rules and the Daubechies case. (English)
Appl. Math. Comput. 206, No. 1, 74-91 (2008).
14
A recursive procedure to obtain a class of orthogonal polynomial wavelets. (English)
Math. Comput. Simul. 77, No. 2-3, 266-273 (2008).
15
$l^{infinity}$-stability for linear multiresolution algorithms: A new explicit approach. Part I: The basic rules and the Daubechies case (English)
Applied Mathematics and Computation 206, No. 1, 74-91 (2008).
16
$l^{infinity}$-stability for linear multiresolution algorithms: A new explicit approach. Part III: The 2-D case (English)
Applied Mathematics and Computation 206, No. 1, 104-112 (2008).
17
$l^{infinity}$-stability for linear multiresolution algorithms: A new explicit approach. Part II: The cases of symlets, coiflets, biorthogonal wavelets and supercompact multiwavelets (English)
Applied Mathematics and Computation 206, No. 1, 92-103 (2008).
18
Multiresolution analysis for minimal energy $C^{r}$-surfaces on powell-sabin type meshes (English)
MMCS, 209-223 (2008).
19
Reconstruction formulas by the linearization coefficients of the Jacobi polynomials. (English)
Cohen, Albert (ed.) et al., Curve and surface fitting. Avignon 2006. Proceedings 6th international conference on curves and surfaces, Avignon, France, June 29 ‒ July 5, 2006. Brentwood: Nashboro Press (ISBN 978-0-9728482-8-2/hbk). Modern Methods in Mathematics, 210-219 (2007).
20
Result 1 to 20 of 23 total
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