On the entropy numbers of the mixed smoothness function classes

For multivariate Besov-type classes $U^a_{p,\theta}$ of functions having nonuniform mixed smoothness $a\in\rr^d_+$, we obtain the asumptotic order of entropy numbers $\epsilon_n(U^a_{p,\theta},L_q)$ and non-linear widths $\rho_n(U^a_{p,\theta},L_q)$ defined via pseudo-dimension. We obtain also the asymptotic order of optimal methods of adaptive sampling recovery in $L_q$-norm of functions in $U^a_{p,\theta}$ by sets of a finite capacity which is measured by their cardinality or pseudo-dimension.

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On the entropy numbers between the anisotropic spaces and the spaces of functions with mixed smoothness

International Journal of Wavelets Multiresolution and Information Processing ◽

10.1142/s0219691318500650 ◽

2019 ◽

Vol 17 (01) ◽

pp. 1850065 ◽

Cited By ~ 1

Author(s):

Kai Wang ◽

Yali Wang ◽

Yinying Zhou

Keyword(s):

Entropy Numbers ◽

Anisotropic Spaces ◽

Mixed Smoothness

We study the entropy numbers of the anisotropic classes in the spaces of functions with mixed smoothness and those of the classes of functions with mixed smoothness in the anisotropic spaces. Exact orders of the corresponding entropy numbers are obtained.

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Entropy numbers of embedding maps between Besov spaces with an application to eigenvalue problems

Proceedings of the Royal Society of Edinburgh Section A Mathematics ◽

10.1017/s0308210500015341 ◽

1981 ◽

Vol 90 (1-2) ◽

pp. 63-70 ◽

Cited By ~ 5

Author(s):

Bernd Carl

Keyword(s):

Banach Space ◽

Asymptotic Behaviour ◽

Besov Spaces ◽

Eigenvalue Problems ◽

Function Spaces ◽

Sequence Spaces ◽

Entropy Numbers ◽

Diagonal Operators

SynopsisIn this paper we determine the asymptotic behaviour of entropy numbers of embedding maps between Besov sequence spaces and Besov function spaces. The results extend those of M. Š. Birman, M. Z. Solomjak and H. Triebel originally formulated in the language of ε-entropy. It turns out that the characterization of embedding maps between Besov spaces by entropy numbers can be reduced to the characterization of certain diagonal operators by their entropy numbers.Finally, the entropy numbers are applied to the study of eigenvalues of operators acting on a Banach space which admit a factorization through embedding maps between Besov spaces.The statements of this paper are obtained by results recently proved elsewhere by the author.

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Separation results for boolean function classes

Cryptography and Communications ◽

10.1007/s12095-021-00488-w ◽

2021 ◽

Author(s):

Aniruddha Biswas ◽

Palash Sarkar

Keyword(s):

Boolean Function ◽

Function Classes ◽

Separation Results

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Hyperbolic Wavelet Analysis of Classical Isotropic and Anisotropic Besov–Sobolev Spaces

Journal of Fourier Analysis and Applications ◽

10.1007/s00041-021-09844-z ◽

2021 ◽

Vol 27 (3) ◽

Author(s):

Martin Schäfer ◽

Tino Ullrich ◽

Béatrice Vedel

Keyword(s):

Haar System ◽

A Priori ◽

Natural Setting ◽

The Novel ◽

Major Question ◽

Vanishing Moments ◽

Classical Setting ◽

Hyperbolic Wavelets ◽

The Relationship ◽

Mixed Smoothness

AbstractIn this paper we introduce new function spaces which we call anisotropic hyperbolic Besov and Triebel-Lizorkin spaces. Their definition is based on a hyperbolic Littlewood-Paley analysis involving an anisotropy vector only occurring in the smoothness weights. Such spaces provide a general and natural setting in order to understand what kind of anisotropic smoothness can be described using hyperbolic wavelets (in the literature also sometimes called tensor-product wavelets), a wavelet class which hitherto has been mainly used to characterize spaces of dominating mixed smoothness. A centerpiece of our present work are characterizations of these new spaces based on the hyperbolic wavelet transform. Hereby we treat both, the standard approach using wavelet systems equipped with sufficient smoothness, decay, and vanishing moments, but also the very simple and basic hyperbolic Haar system. The second major question we pursue is the relationship between the novel hyperbolic spaces and the classical anisotropic Besov–Lizorkin-Triebel scales. As our results show, in general, both approaches to resolve an anisotropy do not coincide. However, in the Sobolev range this is the case, providing a link to apply the newly obtained hyperbolic wavelet characterizations to the classical setting. In particular, this allows for detecting classical anisotropies via the coefficients of a universal hyperbolic wavelet basis, without the need of adaption of the basis or a-priori knowledge on the anisotropy.

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More on the duality conjecture for entropy numbers

Comptes Rendus Mathematique ◽

10.1016/s1631-073x(03)00102-x ◽

2003 ◽

Vol 336 (6) ◽

pp. 479-482 ◽

Cited By ~ 1

Author(s):

Shiri Artstein ◽

Vitali D Milman ◽

Stanislaw J Szarek

Keyword(s):

Entropy Numbers

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Asymptotic Behavior of Singular and Entropy Numbers for Some Riemann–Liouville Type Operators

Georgian Mathematical Journal ◽

10.1515/gmj.2001.323 ◽

2001 ◽

Vol 8 (2) ◽

pp. 323-332

Author(s):

A. Meskhi

Keyword(s):

Asymptotic Behavior ◽

Integral Operators ◽

Integral Transforms ◽

Singular Value ◽

Entropy Numbers ◽

Liouville Type ◽

Singular Value Decompositions

Abstract The asymptotic behavior of the singular and entropy numbers is established for the Erdelyi–Köber and Hadamard integral operators (see, e.g., [Samko, Kilbas and Marichev, Integrals and derivatives. Theoryand Applications, Gordon and Breach Science Publishers, 1993]) acting in weighted L 2 spaces. In some cases singular value decompositions are obtained as well for these integral transforms.

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Introducing a Use Perspective in Product Design Theory and Methodology

Volume 3: 11th International Conference on Design Theory and Methodology ◽

10.1115/detc99/dtm-8782 ◽

1999 ◽

Author(s):

Anders V. Warell

Keyword(s):

Engineering Design ◽

Design Theory ◽

Functional Language ◽

Product Systems ◽

Function Classes ◽

Life Phase ◽

Active User ◽

Design Theory And Methodology ◽

Machine Systems ◽

And Function

Abstract In this paper it is argued that methods are needed for the design of a larger variety of product aspects than is feasible with mechanical engineering design methodology of today. Design methods found within the European schools of design are inadequate for the design of products other than machine systems of transforming character. The reason for this is that the underlying theories only describe the nature of ‘operand-transforming’ technical systems, and that the description of the process and function systems are too narrowly defined to be useful for the design of ‘non-transforming’ products, or for products where the human is involved as an active user. The paper takes as the standpoint that the functional language, in accordance with established foundation in engineering design theory, is a successful means to treat usability aspects of human-product systems. An extended process modeling view based on product life-phase thinking including a ‘use-process’ is presented, focusing the attention towards the use, and not merely the workings, of the product. Also, extended definitions of a number of concepts are proposed, and function-classes of the human-product system, leading to a more generally applicable use of functions as a modeling tool when describing products, is introduced. The proposed functional language is illustrated in a product case example.

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