{"title":"The Variation Operator of Differences of Averages over Lacunary Sequences Maps $$H_{w}^{1}(\\mathbb{R})$$ to $$L_{w}^{1}(\\mathbb{R})$$","authors":"S. Demir","doi":"10.3103/s1066369x24700324","DOIUrl":null,"url":null,"abstract":"<h3 data-test=\"abstract-sub-heading\">Abstract</h3><p>Let <span>\\(f\\)</span> be a locally integrable function defined on <span>\\(\\mathbb{R}\\)</span>, and <span>\\(({{n}_{k}})\\)</span> be a lacunary sequence. Define\n<span>\\({{A}_{n}}f(x) = \\frac{1}{n}\\int_0^n f(x - t)dt,\\)</span>\nand let <span>\\({{\\mathcal{V}}_{\\rho }}f(x) = {{\\left( {\\sum\\limits_{k = 1}^\\infty {{{\\left| {{{A}_{{{{n}_{k}}}}}f(x) - {{A}_{{{{n}_{{k - 1}}}}}}f(x)} \\right|}}^{\\rho }}} \\right)}^{{1/\\rho }}}.\\)</span>\nSuppose that <span>\\(w \\in {{A}_{p}}\\)</span>, <span>\\(1 \\leqslant p < \\infty \\)</span>, and <span>\\(\\rho \\geqslant 2\\)</span>. Then, there exists a positive constant <span>\\(C\\)</span> such that <span>\\({{\\left\\| {{{\\mathcal{V}}_{\\rho }}f} \\right\\|}_{{L_{w}^{1}}}} \\leqslant C{{\\left\\| f \\right\\|}_{{H_{w}^{1}}}}\\)</span>\nfor all <span>\\(f \\in H_{w}^{1}(\\mathbb{R})\\)</span>.</p>","PeriodicalId":46110,"journal":{"name":"Russian Mathematics","volume":"6 1","pages":""},"PeriodicalIF":0.5000,"publicationDate":"2024-08-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Russian Mathematics","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.3103/s1066369x24700324","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"MATHEMATICS","Score":null,"Total":0}
引用次数: 0
Abstract
Let \(f\) be a locally integrable function defined on \(\mathbb{R}\), and \(({{n}_{k}})\) be a lacunary sequence. Define
\({{A}_{n}}f(x) = \frac{1}{n}\int_0^n f(x - t)dt,\)
and let \({{\mathcal{V}}_{\rho }}f(x) = {{\left( {\sum\limits_{k = 1}^\infty {{{\left| {{{A}_{{{{n}_{k}}}}}f(x) - {{A}_{{{{n}_{{k - 1}}}}}}f(x)} \right|}}^{\rho }}} \right)}^{{1/\rho }}}.\)
Suppose that \(w \in {{A}_{p}}\), \(1 \leqslant p < \infty \), and \(\rho \geqslant 2\). Then, there exists a positive constant \(C\) such that \({{\left\| {{{\mathcal{V}}_{\rho }}f} \right\|}_{{L_{w}^{1}}}} \leqslant C{{\left\| f \right\|}_{{H_{w}^{1}}}}\)
for all \(f \in H_{w}^{1}(\mathbb{R})\).
AbstractLet \(f\) be a locally integrable function defined on \(\mathbb{R}\), and \(({{n}_{k}})\) be a lacunary sequence.定义({{A}_{n}}f(x) = \frac{1}{n}\int_0^n f(x - t)dt、\)并让\({{math\cal{V}}_{\rho }}f(x) = {{\left( {\sum\limits_{k = 1}^^\infty {{{left| {{A}_{{{{n}_{k}}}}}f(x) - {{A}_{{{{n}_{k - 1}}}}}}f(x)} \right|}}^{\rho }}}\right)}^{{1/\rho }}}.\)Suppose that \(w \in {{A}_{p}}\),\(1 \leqslant p < \infty \), and\(\rho \geqslant 2\).然后,存在一个正常数(C),使得 \({{\left\| {{{\mathcal{V}}_{\rho }}f}\right\|}_{{L_{w}^{1}}}}\leqslant C{{left\| f \right\|}_{{H_{w}^{1}}}}\)for all \(f \in H_{w}^{1}(\mathbb{R})\).
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