Abstract
By establishing an identity between a sequence of Bernstein-type operators and a sequence of Szász–Mirakyan operators, we prove that the convergence of Bernstein-type operators is related to convergence with respect to Szàsz–Mirakyan operators. As one application of this identity, we prove that whenever the parameters are conveniently chosen, if \(f\in C[0,\infty )\) satisfies a growth condition of the form \(|f(t)|\le C e^{\alpha t}(C,\alpha \in \mathbb {R}^+)\), then the classical Bernstein operators \(B_{mn}(f(nu),x/n)\) converge to the Szàsz–Mirakyan operator \(S_m(f,x)\). This convergence generalizes the classical result of De la Cal and Liquin to unbounded functions; moreover, the rth derivative of \(B_{mn}(f(nu),x/n)\) converges to the rth derivative of \(S_m(f,x)\). As another application of this identity, we derive Voronowskaja type result for the general Lototsky–Bernstein operators.
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Goldman, R., Xu, XW. & Zeng, XM. Applications of the Shorgin Identity to Bernstein Type Operators. Results Math 73, 2 (2018). https://doi.org/10.1007/s00025-018-0764-2
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DOI: https://doi.org/10.1007/s00025-018-0764-2