Araştırma Makalesi
BibTex RIS Kaynak Göster

A fast converging sampling operator

Yıl 2022, , 190 - 201, 01.12.2022
https://doi.org/10.33205/cma.1172005

Öz

We construct a sampling operator with the property that the smoother a function is, the faster its approximation is. We establish a direct estimate and a weak converse estimate of its rate of approximation in the uniform norm by means of a modulus of smoothness and a $K$-functional. The case of weighted approximation is also considered. The weights are positive and power-type with non-positive exponents at infinity. This sampling operator preserves every algebraic polynomial.

Kaynakça

  • T. Acar, O. Alagöz, A. Aral, D. Costarelli, M. Turgay and G. Vinti: Convergence of generalized sampling series in weighted spaces, Demonstr. Math., 55 (2022), 153–162.
  • T. Acar, O. Alagöz, A. Aral, D. Costarelli, M. Turgay and G. Vinti: Approximation by sampling Kantorovich series in weighted spaces of functions, Turkish J. Math., 46 (7), Article 7.
  • O. Alagöz, M. Turgay, T. Acar and M. Parlak: Approximation by sampling Durrmeyer operators in weighted space of functions, Numer. Funct. Anal. Optim., 43 (2022), 1223-1239.
  • A. Aral, T. Acar and S. Kursun: Generalized Kantorovich forms of exponential sampling series, Anal. Math. Phys., 12 (2022), 50.
  • S. Artamonov, K. V. Runovski and H. J. Schmeisser: Approximation by families of generalized sampling series, realizations of generalized K-functionals and generalized moduli of smoothness, J. Math. Anal. Appl., 489 (2020), 124138.
  • C. Bardaro,I. Mantellini: Asymptotic formulae for linear combinations of generalized sampling operators, Z. Anal. Anwend., 32 (2013), 279-298.
  • H. Berens, G. G. Lorentz: Inverse theorems for Bernstein polynomials, Indiana Univ. Math. J., 21 (1972), 693-708.
  • P. L. Butzer, R. J. Nessel: Fourier Analysis and Approximation, Birkhäser Verlag, Basel (1971).
  • P. L. Butzer, S. Ries and R. L. Stens: Approximation of continuous and discontinuous functions by generalized sampling series, J. Approx. Theory, 50 (1987), 25–39.
  • P. L. Butzer, R. L. Stens: Linear prediction by samples from the past, Advanced Topics in Shannon Sampling and Interpolation Theory (1993), 157-183.
  • R. A. DeVore, G. G. Lorentz: Constructive Approximation, Springer-Verlag, Berlin (1993).
  • Z. Ditzian, V. Totik: Moduli of Smoothness, Springer-Verlag, New York (1987).
  • Yu. Kolomoitsev, M. Skopina: Quasi-projection operators in weighted $L_p$ spaces, Appl. Comput. Harmon. Anal., 52 (2021), 165-197.
  • Yu. Kolomoitsev, M. Skopina: Approximation by multivariate quasi-projection operators and Fourier multipliers, Appl. Math. Comput., 400 (2021), 125955.
  • Yu. Kolomoitsev, M. Skopina: Uniform approximation by multivariate quasi-projection operators, Anal. Math. Phys., 12 (2022), 68.
  • M. A. Pinsky: Introduction to Fourier Analysis and Wavelets, American Mathematical Society (2009).
  • S. Ries, R. L. Stens: Approximation by generalized sampling series, Procedings of the International Conference “Constructive Theory of Functions”, Varna (Bulgaria) (1984) (B. Sendov, P. Petrushev, R. Maleev, S. Tashev, Eds.), Bulgarian Academy of Sciences, Sofia (1984), 746-756.
Yıl 2022, , 190 - 201, 01.12.2022
https://doi.org/10.33205/cma.1172005

Öz

Kaynakça

  • T. Acar, O. Alagöz, A. Aral, D. Costarelli, M. Turgay and G. Vinti: Convergence of generalized sampling series in weighted spaces, Demonstr. Math., 55 (2022), 153–162.
  • T. Acar, O. Alagöz, A. Aral, D. Costarelli, M. Turgay and G. Vinti: Approximation by sampling Kantorovich series in weighted spaces of functions, Turkish J. Math., 46 (7), Article 7.
  • O. Alagöz, M. Turgay, T. Acar and M. Parlak: Approximation by sampling Durrmeyer operators in weighted space of functions, Numer. Funct. Anal. Optim., 43 (2022), 1223-1239.
  • A. Aral, T. Acar and S. Kursun: Generalized Kantorovich forms of exponential sampling series, Anal. Math. Phys., 12 (2022), 50.
  • S. Artamonov, K. V. Runovski and H. J. Schmeisser: Approximation by families of generalized sampling series, realizations of generalized K-functionals and generalized moduli of smoothness, J. Math. Anal. Appl., 489 (2020), 124138.
  • C. Bardaro,I. Mantellini: Asymptotic formulae for linear combinations of generalized sampling operators, Z. Anal. Anwend., 32 (2013), 279-298.
  • H. Berens, G. G. Lorentz: Inverse theorems for Bernstein polynomials, Indiana Univ. Math. J., 21 (1972), 693-708.
  • P. L. Butzer, R. J. Nessel: Fourier Analysis and Approximation, Birkhäser Verlag, Basel (1971).
  • P. L. Butzer, S. Ries and R. L. Stens: Approximation of continuous and discontinuous functions by generalized sampling series, J. Approx. Theory, 50 (1987), 25–39.
  • P. L. Butzer, R. L. Stens: Linear prediction by samples from the past, Advanced Topics in Shannon Sampling and Interpolation Theory (1993), 157-183.
  • R. A. DeVore, G. G. Lorentz: Constructive Approximation, Springer-Verlag, Berlin (1993).
  • Z. Ditzian, V. Totik: Moduli of Smoothness, Springer-Verlag, New York (1987).
  • Yu. Kolomoitsev, M. Skopina: Quasi-projection operators in weighted $L_p$ spaces, Appl. Comput. Harmon. Anal., 52 (2021), 165-197.
  • Yu. Kolomoitsev, M. Skopina: Approximation by multivariate quasi-projection operators and Fourier multipliers, Appl. Math. Comput., 400 (2021), 125955.
  • Yu. Kolomoitsev, M. Skopina: Uniform approximation by multivariate quasi-projection operators, Anal. Math. Phys., 12 (2022), 68.
  • M. A. Pinsky: Introduction to Fourier Analysis and Wavelets, American Mathematical Society (2009).
  • S. Ries, R. L. Stens: Approximation by generalized sampling series, Procedings of the International Conference “Constructive Theory of Functions”, Varna (Bulgaria) (1984) (B. Sendov, P. Petrushev, R. Maleev, S. Tashev, Eds.), Bulgarian Academy of Sciences, Sofia (1984), 746-756.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Matematik
Bölüm Makaleler
Yazarlar

Borislav Draganov 0000-0003-4972-378X

Yayımlanma Tarihi 1 Aralık 2022
Yayımlandığı Sayı Yıl 2022

Kaynak Göster

APA Draganov, B. (2022). A fast converging sampling operator. Constructive Mathematical Analysis, 5(4), 190-201. https://doi.org/10.33205/cma.1172005
AMA Draganov B. A fast converging sampling operator. CMA. Aralık 2022;5(4):190-201. doi:10.33205/cma.1172005
Chicago Draganov, Borislav. “A Fast Converging Sampling Operator”. Constructive Mathematical Analysis 5, sy. 4 (Aralık 2022): 190-201. https://doi.org/10.33205/cma.1172005.
EndNote Draganov B (01 Aralık 2022) A fast converging sampling operator. Constructive Mathematical Analysis 5 4 190–201.
IEEE B. Draganov, “A fast converging sampling operator”, CMA, c. 5, sy. 4, ss. 190–201, 2022, doi: 10.33205/cma.1172005.
ISNAD Draganov, Borislav. “A Fast Converging Sampling Operator”. Constructive Mathematical Analysis 5/4 (Aralık 2022), 190-201. https://doi.org/10.33205/cma.1172005.
JAMA Draganov B. A fast converging sampling operator. CMA. 2022;5:190–201.
MLA Draganov, Borislav. “A Fast Converging Sampling Operator”. Constructive Mathematical Analysis, c. 5, sy. 4, 2022, ss. 190-01, doi:10.33205/cma.1172005.
Vancouver Draganov B. A fast converging sampling operator. CMA. 2022;5(4):190-201.