Ostrowski type inequalities via exponentially $s$-convexity on time scales

Advances in the Theory of Nonlinear Analysis and its Application Pub Date : 2022-12-30 DOI:10.31197/atnaa.1021333
S. Georgiev, V. Darvish, E. Nwaeze
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Abstract

We introduce the concept of exponentially $s$-convexity in the second sense on a time scale interval. We prove among other things that if $f: [a, b]\to \mathbb{R}$ is an exponentially $s$-convex function, then \begin{align*} &\frac{1}{b-a}\int_a^b f(t)\Delta t\\ &\leq \frac{f(a)}{e_{\beta}(a, x_0) (b-a)^{2s}}(h_2(a, b))^s+\frac{f(b)}{e_{\beta}(b, x_0) (b-a)^{2s}}(h_2(b, a))^s, \end{align*} where $\beta$ is a positively regressive function. By considering special cases of our time scale, one can derive loads of interesting new inequalities. The results obtained herein are novel to best of our knowledge and they complement existing results in the literature.
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Ostrowski型不等式在时间尺度上的指数凸性
我们在时间尺度区间上引入第二种意义上的指数级$s$ -凸性的概念。我们证明了如果$f: [a, b]\to \mathbb{R}$是一个指数级$s$ -凸函数,那么\begin{align*}&\frac{1}{b-a}\int_a^b f(t)\Delta t\\&\leq \frac{f(a)}{e_{\beta}(a, x_0) (b-a)^{2s}}(h_2(a, b))^s+\frac{f(b)}{e_{\beta}(b, x_0) (b-a)^{2s}}(h_2(b, a))^s,\end{align*}其中$\beta$是一个正回归函数。通过考虑时间尺度的特殊情况,我们可以推导出许多有趣的新不等式。本文所获得的结果就我们所知是新颖的,它们补充了文献中现有的结果。
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Advances in the Theory of Nonlinear Analysis and its Application
Advances in the Theory of Nonlinear Analysis and its Application
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