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Integral Transforms and Special Functions Volume 26, 2015 - Issue 10
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Original Articles

Convergence in variation and a characterization of the absolute continuity

Laura AngeloniDipartimento di Matematica e Informatica, Università degli Studi di Perugia, Via Vanvitelli, 1, 06123Perugia, Italy
&
Gianluca VintiDipartimento di Matematica e Informatica, Università degli Studi di Perugia, Via Vanvitelli, 1, 06123Perugia, ItalyCorrespondence[email protected]
Pages 829-844 | Received 15 May 2015, Accepted 09 Jun 2015, Published online: 17 Jul 2015

References

  • Angeloni L, Vinti G. A characterization of some concepts of absolute continuity by means of Mellin integral operators. Z Anal Anwend. 2015;34(3):343–356. doi:10.4171/ZAA/1543.
  • Angeloni L, Vinti G. Variation and approximation in multidimensional setting for Mellin operators. New Perspectives on Approximation and Sampling Theory-Festschrift in honor of Paul Butzer's 85th birthday. Birkhauser. 2014:299–317.
  • Rudin LI, Osher S, Fatemi E. Nonlinear total variation based noise removal algorithms. Physica D. 1992;60(1–4):259–268. doi: 10.1016/0167-2789(92)90242-F
  • Ogada EA, Guo Z, Wu B. An alternative variational framework for image denoising. Abstr Appl Anal. 2014;2014:16. doi:10.1155/2014/939131.
  • Casasent D (Ed). Optical data processing. Berlin: Springer; 1978. p. 241–282.
  • Bertero M, Pike ER. Exponential-sampling method for Laplace and other dilationally invariant transforms: I. Singular-system analysis. II. Examples in photon correlation spectroscopy and Fraunhofer diffraction. Inverse Probl. 1991;7: 1–20, 21–41.
  • Gori F. Sampling in optics. In: Marks II RJ, editor. Advanced topics in Shannon Sampling and Interpolation Theory. Marks II RJ, editor. New York, NY: Springer; 1993. p. 37–83.
  • Ostrowsky N, Sornette D, Parker P, Pike ER. Exponential sampling method for light scattering polydispersity analysis. Opt Acta. 1994;28:1059–1070. doi: 10.1080/713820704
  • Butzer PL, Jansche S. The Exponential Sampling Theorem of Signal Analysis. Atti Sem Mat Fis Univ Modena Suppl Vol. 46, a special issue of the International Conference in Honour of Prof. Calogero Vinti; 1998. p. 99–122.
  • Bardaro C, Butzer PL, Mantellini I. The exponential sampling theorem of signal analysis and the reproducing kernel formula in Mellin transform setting. Sampl Theory Signal Image Process. 2014;13(1):35–66.
  • Mamedov RG. The Mellin transform and approximation theory. Baku: ‘Elm’; 1991
  • Butzer PL, Jansche S. A direct approach to the Mellin Transform. J Fourier Anal Appl. 1997;3:325–376. doi: 10.1007/BF02649101
  • Bardaro C, Musielak J, Vinti G, Nonlinear Integral Operators and Applications, De Gruyter Series in Nonlinear Analysis and Applications, Vol. 9. New York: De Gruyter; 2003.
  • Bardaro C, Karsli H, Vinti G. On pointwise convergence of linear integral operators with homogeneous kernels. Integr Transf Spec F. 2008;19(6):429–439. doi: 10.1080/10652460801936648
  • Vinti G, Zampogni L. A unifying approach to convergence of linear sampling type operators in Orlicz spaces. Adv Differential Equ. 2011;16(5–6):573–600.
  • Angeloni L, Vinti G. Approximation in variation by homothetic operators in multidimensional setting. Differ Integral Equ. 2013;26(56):655–674.
  • Bardaro C, Karsli H, Vinti G. On pointwise convergence of Mellin type nonlinear m-singular integral operators. Comm Appl Nonlinear Anal. 2013;20(2):25–39.
  • Costarelli D, Vinti G. Approximation by nonlinear multivariate sampling-Kantorovich type operators and applications to image processing. Numer Func Anal Opt. 2013;34(6):1–26.
  • Angeloni L, Vinti G. Convergence and rate of approximation in BVϕ(R+N) for a class of Mellin integral operator. Atti Accad Naz Lincei Cl Sci Fis Mat Natur Rend Lincei (9) Mat Appl. 2014;25:217–232. doi: 10.4171/RLM/675
  • Boccuto A, Candeloro D, Sambucini AR. Vitali-type theorems for filter convergence related to vector lattice-valued modulars and applications to stochastic processes. J Math Anal Appl. 2014;419(2):818–838. doi: 10.1016/j.jmaa.2014.05.014
  • Costarelli D, Vinti G. Order of approximation for sampling Kantorovich operators. J Integral Equ Appl. 2014;26(3):345–368. doi: 10.1216/JIE-2014-26-3-345
  • Vinti G, Zampogni L. Approximation results for a general class of Kantorovich type operators. Adv Nonlinear Stud. 2014;14(4):991–1011.
  • Butzer PL, Jansche S. A self-contained approach to Mellin transform analysis for square integrable functions; applications. Integr Transf Spec F. 1999;8(3–4):175–198. doi: 10.1080/10652469908819226
  • Butzer PL, Kilbas AA, Trujillo JJ. Fractional calculus in the Mellin setting and Hadamard fractional integrals. J Math Anal Appl. 2002;269:1–27. doi: 10.1016/S0022-247X(02)00001-X
  • Duduchava R. Mellin convolution operators in Bessel potential spaces with admissible meromorphic kernels. Mem Differ Equ Math Phys. 2013;60:135–177.
  • Bardaro C, Mantellini I. On Mellin convolution operators: a direct approach to the asymptotic formulae. Integr Transf Spec F. 2014;25(3):182–195. doi: 10.1080/10652469.2013.838755
  • Tonelli L. Su alcuni concetti dell'analisi moderna. Ann Scuola Norm Super Pisa. 1942;11(2):107–118.
  • Radò T, Length and Area, Amer Math Soc, Vol. 30. Colloquium Publications; 1948.
  • Vinti C. Perimetro–variazione. Ann Scuola Norm Sup Pisa. 1964;18(3):201–231.
  • Angeloni L, Vinti G. Convergence in variation and rate of approximation for nonlinear integral operators of convolution type. Results Math. 2006;49(1–2):1–23. Erratum: 2010;57:387–391. doi: 10.1007/s00025-006-0208-2
  • Angeloni L, Vinti G. Approximation with respect to Goffman-Serrin variation by means of non-convolution type integral operators. Numer Func Anal Opt. 2010;31:519–548. doi: 10.1080/01630563.2010.490549
  • Giusti E, Minimal surfaces and functions of bounded variation, Monographs in Math., Vol. 80. Basel, Birkhauser1984.
  • De Giorgi E. Su una teoria generale della misura (r−1)-dimensionale in uno spazio ad r dimensioni. Ann Mat Pur Appl. 1954;36:191–213. doi: 10.1007/BF02412838
  • Serrin J. On differentiability of functions of several variables. Arch Ration Mech An. 1961;7:358–372. doi: 10.1007/BF00250769
  • Musielak J, Orlicz W. On generalized variations (I). Stud Math. 1959;18:11–41.
  • Adell JA, de la Cal J. Bernstein-type operators diminish the ϕ-variation. Constr Approx. 1996;12:489–507.
  • Chistyakov VV, Galkin OE. Mappings of bounded Φ-variation with arbitrary function Φ. J Dyn Control Syst. 1998;4(2):217–247. doi: 10.1023/A:1022889902536
  • Aziz W, Leiva H, Merentes N, Sánchez JL. Functions of two variables with bounded ϕ-variation in the sense of Riesz. J Math Appl. 2013;32:5–23.
  • Bracamonte M, Ereú J, Giménez J, Merentes N. Metric semigroups-valued functions of bounded Riesz−ϕ-variation in several variables. Ann Funct Anal. 2013;4(1):89–108. doi: 10.15352/afa/1399899839
  • Angeloni L. A characterization of a modulus of smoothness in multidimensional setting. Boll Unione Mat Ital Serie IX. 2011;4(1):79–108.
  • Angeloni L. Convergence in variation for a homothetic modulus of smoothness in multidimensional setting. Comm Appl Nonlinear Anal. 2012;19(1):1–22.
  • Angeloni L. Approximation results with respect to multidimensional ϕ-variation for nonlinear integral operators. Z Anal Anwend. 2013;32(1):103–128. doi: 10.4171/ZAA/1476
  • Bajada E. L'equazione p=f(x,y,z,q) e l'unicità. Atti Accad Naz Lincei Cl Sci Fis Mat Natur Rend Lincei. 1952;12:163–167.
  • Darbo G. La nozione di variazione limitata e di assoluta continuità super-uniforme. Rend Sem Mat Univ Padova. 1953;22:246–250.
  • Butzer PL, Nessel RJ. Fourier Analysis and Approximation, I. New York-London: Academic Press; 1971

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