Strongly Sublinear Separators and Polynomial Expansion

In this paper, we introduce a new comprehensive subclass ΣB(λ,μ,β) of meromorphic bi-univalent functions in the open unit disk U. We also find the upper bounds for the initial Taylor-Maclaurin coefficients |b0|, |b1| and |b2| for functions in this comprehensive subclass. Moreover, we obtain estimates for the general coefficients |bn|(n≧1) for functions in the subclass ΣB(λ,μ,β) by making use of the Faber polynomial expansion method. The results presented in this paper would generalize and improve several recent works on the subject.

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Longitudinal Legendre polynomial expansion of electromagnetic fields for analysis of arbitrary-shaped gratings

Journal of the Optical Society of America A ◽

10.1364/josaa.25.001564 ◽

2008 ◽

Vol 25 (7) ◽

pp. 1564 ◽

Cited By ~ 15

Author(s):

Amin Khavasi ◽

Ali Kazemi Jahromi ◽

Khashayar Mehrany

Keyword(s):

Electromagnetic Fields ◽

Legendre Polynomial ◽

Polynomial Expansion

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Unified polynomial expansion for interval and random response analysis of uncertain structure–acoustic system with arbitrary probability distribution

Computer Methods in Applied Mechanics and Engineering ◽

10.1016/j.cma.2018.03.014 ◽

2018 ◽

Vol 336 ◽

pp. 260-285 ◽

Cited By ~ 9

Author(s):

Shengwen Yin ◽

Dejie Yu ◽

Zhen Luo ◽

Baizhan Xia

Keyword(s):

Probability Distribution ◽

Polynomial Expansion ◽

Response Analysis ◽

Random Response ◽

Acoustic System ◽

Uncertain Structure

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Minimal Projections and Near-Best Approximations by Multivariate Polynomial Expansion and Interpolation

Multivariate Approximation Theory II ◽

10.1007/978-3-0348-7189-1_20 ◽

1982 ◽

pp. 241-254 ◽

Cited By ~ 2

Author(s):

John C. Mason

Keyword(s):

Polynomial Expansion ◽

Best Approximations ◽

Multivariate Polynomial ◽

Minimal Projections

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An Efficient Polynomial Chaos Method for Stiffness Analysis of Air Spring Considering Uncertainties

Complexity ◽

10.1155/2021/5592559 ◽

2021 ◽

Vol 2021 ◽

pp. 1-11

Author(s):

Feng Kong ◽

Penghao Si ◽

Shengwen Yin

Keyword(s):

Orthogonal Polynomial ◽

Polynomial Chaos ◽

Random Variables ◽

Expansion Method ◽

Polynomial Expansion ◽

Response Analysis ◽

Air Spring ◽

Stiffness Analysis ◽

Orthogonal Polynomial Expansion ◽

Sparse Quadrature

Traditional methods for stiffness analysis of the air spring are based on deterministic assumption that the parameters are fixed. However, uncertainties have widely existed, and the mechanic property of the air spring is very sensitive to these uncertainties. To model the uncertainties in the air spring, the interval/random variables models are introduced. For response analysis of the interval/random variables models of the air spring system, a new unified orthogonal polynomial expansion method, named as sparse quadrature-based interval and random moment arbitrary polynomial chaos method (SQ-IRMAPC), is proposed. In SQ-IRMAPC, the response of the acoustic system related to both interval and random variables is approximated by the moment-based arbitrary orthogonal polynomial expansion. To efficiently calculate the coefficient of the interval and random orthogonal polynomial expansion, the sparse quadrature is introduced. The proposed SQ-IRMAPC was employed to analyze the mechanic performance of an air spring with interval and/or random variables, and its effectiveness has been demonstrated by fully comparing it with the most recently proposed orthogonal polynomial-based interval and random analysis method.

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Flow Dynamics in Restricted Geometries: A Mathematical Concept Based on Bloch NMR Flow Equation and Boubaker Polynomial Expansion Scheme

Journal of Applied Mathematics and Physics ◽

10.4236/jamp.2013.15011 ◽

2013 ◽

Vol 01 (05) ◽

pp. 71-78 ◽

Cited By ~ 1

Author(s):

Omotayo Bamidele Awojoyogbe ◽

Oluwaseun Michael Dada ◽

Karem Boubaker ◽

Omoniyi Adewale Adesola

Keyword(s):

Mathematical Concept ◽

Flow Equation ◽

Flow Dynamics ◽

Polynomial Expansion ◽

Expansion Scheme

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AMITE: A Novel Polynomial Expansion for Analyzing Neural Network Nonlinearities

IEEE Transactions on Neural Networks and Learning Systems ◽

10.1109/tnnls.2021.3130904 ◽

2021 ◽

pp. 1-13

Author(s):

Mauro J. Sanchirico ◽

Xun Jiao ◽

C. Nataraj

Keyword(s):

Neural Network ◽

Polynomial Expansion

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On the oscillation of a nonlinear two-dimensional difference systems

Tamkang Journal of Mathematics ◽

10.5556/j.tkjm.32.2001.375 ◽

2001 ◽

Vol 32 (3) ◽

pp. 201-209 ◽

Cited By ~ 1

Author(s):

E. Thandapani ◽

B. Ponnammal

Keyword(s):

Asymptotic Behavior ◽

Sufficient Conditions ◽

Real Sequence ◽

Two Dimensional ◽

Difference System ◽

Nonoscillatory Solutions ◽

Difference Systems ◽

All Solutions ◽

Necessary And Sufficient ◽

Strongly Sublinear

The authors consider the two-dimensional difference system$$ \Delta x_n = b_n g (y_n) $$ $$ \Delta y_n = -f(n, x_{n+1}) $$where $ n \in N(n_0) = \{ n_0, n_0+1, \ldots \} $, $ n_0 $ a nonnegative integer; $ \{ b_n \} $ is a real sequence, $ f: N(n_0) \times {\rm R} \to {\rm R} $ is continuous with $ u f(n,u) > 0 $ for all $ u \ne 0 $. Necessary and sufficient conditions for the existence of nonoscillatory solutions with a specified asymptotic behavior are given. Also sufficient conditions for all solutions to be oscillatory are obtained if $ f $ is either strongly sublinear or strongly superlinear. Examples of their results are also inserted.

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