Abstract
In this chapter we study quantitatively with rates the convergence of sequences of general Bochner type integral operators, applied on Banach space valued functions, to function values. The results are mainly pointwise, but in the application to vector Bernstein polynomials we end up to obtain a uniform estimate. To prove our main results we have to build a rich background containing many interesting vector fractional results. Our inequalities are fractional involving the right and left vector Caputo type fractional derivatives, built in vector moduli of continuity. We treat very general classes of Banach space valued functions. It follows [7].
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References
C.D. Aliprantis, K.C. Border, Infinite Dimensional Analysis (Springer, New York, 2006)
C.D. Aliprantis, O. Burkinshaw, Principles of Real Analysis, 3rd edn. (Academic Press, San Diego, New York, 1998)
G.A. Anastassiou, Moments in Probability and Approximation Theory, Pitman Research Notes in Math, vol. 287 (Longman Sci. & Tech, Harlow, U.K., 1993)
G.A. Anastassiou, Lattice homomorphism - Korovkin type inequalities for vector valued functions. Hokkaido Math. J. 26, 337–364 (1997)
G. Anastassiou, Fractional Korovkin theory. Chaos Solitons Fractals 42(4), 2080–2094 (2009)
G.A. Anastassiou, Strong right fractional calculus for banach space valued functions. Revista Proyecc. 36(1), 149–186 (2017)
G.A. Anastassiou, Vector fractional Korovkin type Approximations. Dyn. Syst. Appl. 26, 81–104 (2017)
G.A. Anastassiou, A strong Fractional Calculus Theory for Banach space valued functions, Nonlinear Functional Analysis and Applications, accepted (2017)
Appendix F, The Bochner integral and vector-valued \( L_{p}\) -spaces, https://isem.math.kit.edu/images/f/f7/AppendixF.pdf
R.F. Curtain, A.J. Pritchard, Functional Analysis in Modern Applied Mathematics (Academic Press, London, New York, 1977)
Dem’janovič, J., Approximation by local functions in a space with fractional derivatives. (Lithuanian, English summaries), Differencial’nye Uravnenija i Primenen, Trudy Sem. Processy, 35–49, 103 (1975)
V.K. Dzyadyk, On the best trigonometric approximation in the \(L\) metric of some functions, (Russian) Dokl. Akad. Nauk SSSR 129, 19–22 (1959)
Miroslaw Jaskólski, Contributions to fractional calculus and approximation theory on the square. Funct. Approx. Comment. Math. 18, 77–89 (1989)
P.P. Korovkin, Linear Operators and Approximation Theory (Hindustan Publ. Corp., Delhi, India, 1960)
M. Kreuter, Sobolev Spaces of Vector-valued functions , Ulm Univ., Master Thesis in Math., Ulm, Germany (2015)
J. Mikusinski, The Bochner integral (Academic Press, New York, 1978)
F.G. Nasibov, On the degree of best approximation of functions having a fractional derivative in the Riemann-Liouville sense, (Russian-Azerbaijani summary), Izv. Akad. Nauk Azerbaĭdžan, SSR Ser. Fiz.-Mat. Tehn. Nauk 3, 51–57 (1962)
G.E. Shilov, Elementary Functional Analysis (Dover Publications Inc., New York, 1996)
O. Shisha, B. Mond, The degree of convergence of sequences of linear positive operators. Nat. Acad. of Sci. U.S. 60, 1196–1200 (1968)
C. Volintiru, A proof of the fundamental theorem of Calculus using Hausdorff measures. Real Anal. Exch. 26(1), 381–390 (2000/2001)
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Anastassiou, G.A. (2018). Vector Abstract Fractional Korovkin Approximation. In: Intelligent Computations: Abstract Fractional Calculus, Inequalities, Approximations. Studies in Computational Intelligence, vol 734. Springer, Cham. https://doi.org/10.1007/978-3-319-66936-6_5
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DOI: https://doi.org/10.1007/978-3-319-66936-6_5
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