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We investigate various kinds of bases in infinite-dimensional Banach spaces. In particular, we consider the complexity of Hamel bases in separable and non-separable Banach spaces and show that in a separable Banach space a Hamel basis cannot be analytic, whereas there are non-separable Hilbert spaces which have a discrete and closed Hamel basis. Further we investigate the existence of certain complete minimal systems in $ℓ_{\infty}$ as well as in separable Banach spaces.

On bases in the spaces of Dirichlet transformations of finite order $ρ$

Kamthan, P.K., Singh Gautam, S.K. (1979)

Portugaliae mathematica

On basic concepts of non-commutative topology

D. M. Shaydayeva (1984)

Czechoslovak Mathematical Journal

On basic Hahn-Banach extensions

James Holub (1987)

Studia Mathematica

On basis sequences in non-locally convex spaces

J. Morrow (1980)

Studia Mathematica

On Bell's duality theorem for harmonic functions

Joaquín Motos, Salvador Pérez-Esteva (1999)

Studia Mathematica

Define $h^{\infty} (E)$ as the subspace of $C^{\infty} (B ̅ L, E)$ consisting of all harmonic functions in B, where B is the ball in the n-dimensional Euclidean space and E is any Banach space. Consider also the space $h^{- \infty} (E *)$ consisting of all harmonic E*-valued functions g such that ${(1 - | x |)}^{m} f$ is bounded for some m>0. Then the dual $h^{\infty} (E *)$ is represented by $h^{- \infty} (E *)$ through $⟨ f, g ⟩_{0} = l i m_{r \to 1} ʃ_{B} ⟨ f (r x), g (x) ⟩ d x$ , $f \in h^{- \infty} (E *), g \in h^{\infty} (E)$ . This extends the results of S. Bell in the scalar case.

On belonging of trigonometric series to Orlicz space.

Tikhonov, S. (2004)

JIPAM. Journal of Inequalities in Pure & Applied Mathematics [electronic only]

On Besov spaces and absolute convergence of the Fourier transform on Heisenberg groups

Leszek Skrzypczak (1998)

Commentationes Mathematicae Universitatis Carolinae

In this paper the absolute convergence of the group Fourier transform for the Heisenberg group is investigated. It is proved that the Fourier transform of functions belonging to certain Besov spaces is absolutely convergent. The function spaces are defined in terms of the heat semigroup of the full Laplacian of the Heisenberg group.

On Besov-Hardy-Sobolev spaces of analytic functions in the unit disc

Patrick Oswald (1983)

Czechoslovak Mathematical Journal

On Besselian Schauder Bases in l... (E).

M.A. Fugarolas (1984)

Monatshefte für Mathematik

On Best Error Bounds for Approximation by Piecewise Polynomial Functions.

O. Widlund (1976/1977)

Numerische Mathematik

On best simultaneous approximation.

Naidu, S.V.R. (1992)

Publications de l'Institut Mathématique. Nouvelle Série

On bibasic systems and a Retherford’s problem

Anatoli Pličko, Paolo Terenzi (1984)

Atti della Accademia Nazionale dei Lincei. Classe di Scienze Fisiche, Matematiche e Naturali. Rendiconti Lincei. Matematica e Applicazioni

Ogni spazio di Banach ha un sistema bibasico $(x_{n},f_{n})$ normalizzato; inoltre ogni successione $(x_{n})$ uniformemente minimale appartiene ad un sistema biortogonale limitato $(x_{n},f_{n})$ , dove $(f_{n})$ è M-basica e normante.

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