2018
Том 70
№ 2

Sharp Kolmogorov-type inequalities for norms of fractional derivatives of multivariate functions

Abstract

Let $C(\mathbb{R}^m)$ be the space of bounded and continuous functions $x: \mathbb{R}^m → \mathbb{R}$ equipped with the norm $∥x∥_C = ∥x∥_{C(\mathbb{R}^m)} := \sup \{ |x(t)|:\; t∈ \mathbb{R}^m\}$ and let $e_j,\; j = 1,…,m$, be a standard basis in $\mathbb{R}^m$. Given moduli of continuity $ω_j,\; j = 1,…, m$, denote $$H^{j,ω_j} := \left\{x ∈ C(\mathbb{R}^m): ∥x∥_{ω_j} = ∥x∥_{H^{j,ω_j}} = \sup_{t_j≠0} \frac{∥Δtjejx(⋅)∥_C}{ω_j(|t_j|)} < ∞\right\}.$$ We obtain new sharp Kolmogorov-type inequalities for the norms $∥D^{α}_{ε}x∥_C$ of mixed fractional derivatives of functions $x ∈ ∩^{m}_{j=1}H^{j,ω_j}$. Some applications of these inequalities are presented.

English version (Springer): Ukrainian Mathematical Journal 62 (2010), no. 3, pp 343-357.

Citation Example: Babenko V. F., Parfinovych N. V., Pichugov S. A. Sharp Kolmogorov-type inequalities for norms of fractional derivatives of multivariate functions // Ukr. Mat. Zh. - 2010. - 62, № 3. - pp. 301–314.

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