Bilinear multipliers of weighted Wiener amalgam spaces and variable exponent Wiener amalgam spaces

Kulak, Öznur; Gürkanlı, A. Turan

doi:10.1186/1029-242x-2014-476

Cited by 7 publications

(5 citation statements)

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“…Then by Lemma 2.2, and (2.28) we obtain The following Proposition 2.12 and Proposition 2.13 are proved as in (see [7], [11], [12]).…”

Section: )mentioning

confidence: 68%

Bilinear multipliers of small Lebesgue spaces

KULAK,

GÜRKANLI

2021

Turk J Math

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Let G be a compact abelian metric group with Haar measure λ andĜ its dual with Haar measure µ .2, 3) be small Lebesgue spaces. A bounded sequence m (ξ, η) defined onĜ ×Ĝ is said to be a bilinear multiplier on G of type [(p 1 ; (p 2 ; (p 3 ] θ if the bilinear operator Bm associated with the symbol m Bm (f, g) (x) = s∈Ĝ t∈Ĝf (s)ĝ (t) m (s, t) s + t, x defines a bounded bilinear operator from L (p 1 ,θ (G) × L (p 2 ,θ (G) into L (p 3 ,θ (G) . We denote by BM θ [(p 1 ; (p 2 ; (p 3 ] the space of all bilinear multipliers of type [(p 1 ; (p 2 ; (p 3 ] θ . In this paper, we discuss some basic properties of the space BM θ [(p 1 ; (p 2 ; (p 3 ] and give examples of bilinear multipliers.

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“…Then by Lemma 2.2, and (2.28) we obtain The following Proposition 2.12 and Proposition 2.13 are proved as in (see [7], [11], [12]).…”

Section: )mentioning

confidence: 68%

Bilinear multipliers of small Lebesgue spaces

KULAK,

GÜRKANLI

2021

Turk J Math

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“…Some interesting articles have been published on this subject, but not many. So there are many open problems in this function spaces [5], [21], [26], [30], [22], [28], [3], [7], [2], [6].…”

Section: Introductionmentioning

confidence: 99%

Inverse continuous wavelet transform in weighted variable exponent amalgam spaces

Kulak¹,

Aydın²

2020

Communications Faculty of Science University of Ankara Series A1Mathematics and Statistics

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The wavelet transform is an useful mathematical tool. It is a mapping of a time signal to the timescale joint representation. The wavelet transform is generated from a wavelet function by dilation and translation. This wavelet function satis…es an admissible condition so that the original signal can be reconstructed by the inverse wavelet transform. In this study, we …rstly give some basic properties of the weighted variable exponent amalgam spaces. Then we investigate the convergence of the means of f in these spaces under some conditions. Finally, using these results the convergence of the inverse continuous wavelet transform is considered in these spaces.

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“…Recently, there have been many interesting and important papers appeared in variable exponent amalgam spaces L r(.) , ℓ s such as Aydin [1], Aydin [3], Aydin and Gurkanli [4], Gurkanli [16], Gurkanli and Aydin [17], Hanche-Olsen and Holden [18], Meskhi and Zaighum [27], Kokilashvili, Meskhi and Zaighum [21] and Kulak and Gurkanli [24]. In 2003, Pandey studied the compactness of bounded subsets in a Wiener amalgam space W (B, Y ) whose local and global components are solid Banach function spaces and satisfy conditions in [29,Definition 5.1].…”

Section: Introductionmentioning

confidence: 99%

The Kolmogorov–Riesz theorem and some compactness criterions of bounded subsets in weighted variable exponent amalgam and Sobolev spaces

Aydın

Ünal

2019

Collect. Math.

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Bilinear multipliers of weighted Wiener amalgam spaces and variable exponent Wiener amalgam spaces

Abstract: Let ω 1 , ω 2 be slowly increasing weight functions, and let ω 3 be any weight function. We say that m(ξ , η) is a bilinear multiplier on R n of type

Cited by 7 publications

References 7 publications

Bilinear multipliers of small Lebesgue spaces

Bilinear multipliers of small Lebesgue spaces

Inverse continuous wavelet transform in weighted variable exponent amalgam spaces

The Kolmogorov–Riesz theorem and some compactness criterions of bounded subsets in weighted variable exponent amalgam and Sobolev spaces

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