Reconstructing Sparse Exponential Polynomials from Samples: Difference Operators, Stirling Numbers and Hermite Interpolation

The main aim of this paper is to introduce the degenerate truncated forms of multifarious special polynomials and numbers and is to investigate their various properties and relationships by using the series manipulation method and diverse special proof techniques. The degenerate truncated exponential polynomials are first considered and their several properties are given. Then the degenerate truncated Stirling polynomials of the second kind are defined and their elementary properties and relations are proved. Also, the degenerate truncated forms of the bivariate Fubini and Bell polynomials and numbers are introduced and various relations and formulas for these polynomials and numbers, which cover several summation formulas, addition identities, recurrence relationships, derivative property and correlations with the degenerate truncated Stirling polynomials of the second kind, are acquired. Thereafter, the truncated degenerate Bernoulli and Euler polynomials are considered and multifarious correlations and formulas including summation formulas, derivation rules and correlations with the degenerate truncated Stirling numbers of the second are derived. In addition, regarding applications, by introducing the degenerate truncated forms of the classical Bernstein polynomials, we obtain diverse correlations and formulas. Some interesting surface plots of these polynomials in the special cases are provided.

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Generating Functions for New Families of Combinatorial Numbers and Polynomials: Approach to Poisson–Charlier Polynomials and Probability Distribution Function

Axioms ◽

10.3390/axioms8040112 ◽

2019 ◽

Vol 8 (4) ◽

pp. 112 ◽

Cited By ~ 2

Author(s):

Irem Kucukoglu ◽

Burcin Simsek ◽

Yilmaz Simsek

Keyword(s):

Probability Distribution ◽

Generating Functions ◽

Stirling Numbers ◽

Bernoulli Numbers ◽

Distribution Functions ◽

Binomial Coefficients ◽

Bell Polynomials ◽

Exponential Polynomials ◽

Charlier Polynomials ◽

Combinatorial Sums

The aim of this paper is to construct generating functions for new families of combinatorial numbers and polynomials. By using these generating functions with their functional and differential equations, we not only investigate properties of these new families, but also derive many new identities, relations, derivative formulas, and combinatorial sums with the inclusion of binomials coefficients, falling factorial, the Stirling numbers, the Bell polynomials (i.e., exponential polynomials), the Poisson–Charlier polynomials, combinatorial numbers and polynomials, the Bersntein basis functions, and the probability distribution functions. Furthermore, by applying the p-adic integrals and Riemann integral, we obtain some combinatorial sums including the binomial coefficients, falling factorial, the Bernoulli numbers, the Euler numbers, the Stirling numbers, the Bell polynomials (i.e., exponential polynomials), and the Cauchy numbers (or the Bernoulli numbers of the second kind). Finally, we give some remarks and observations on our results related to some probability distributions such as the binomial distribution and the Poisson distribution.

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Hermite interpolation and p-adic exponential polynomials

Journal of the Australian Mathematical Society ◽

10.1017/s144678870001332x ◽

1976 ◽

Vol 22 (1) ◽

pp. 12-26 ◽

Cited By ~ 5

Author(s):

A. J. van der Poorten

Keyword(s):

Hermite Interpolation ◽

Quantitative Result ◽

Interpolation Formula ◽

Exponential Polynomial ◽

Exponential Polynomials ◽

Precise Form ◽

Number Of Zeros

By employing a precise form of the Hermite interpolation formula we obtain a best possible bound for the number of zeros of p-adic exponential polynomials. As companion to this quantitative result we give a best possible bound on the coefficients, if the exponential polynomial is small at sufficiently many points.

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Plethystic Exponential Polynomials and Plethystic Stirling Numbers

Studies in Applied Mathematics ◽

10.1002/sapm19969611 ◽

1996 ◽

Vol 96 (1) ◽

pp. 1-8 ◽

Cited By ~ 2

Author(s):

Miguel Méndez

Keyword(s):

Stirling Numbers ◽

Exponential Polynomials

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Exponential Polynomials, Stirling Numbers, and Evaluation of Some Gamma Integrals

Abstract and Applied Analysis ◽

10.1155/2009/168672 ◽

2009 ◽

Vol 2009 ◽

pp. 1-18 ◽

Cited By ~ 22

Author(s):

Khristo N. Boyadzhiev

Keyword(s):

Stirling Numbers ◽

Point Of View ◽

Bell Polynomials ◽

Single Variable ◽

Exponential Polynomials ◽

Fourier Integrals

This article is a short elementary review of the exponential polynomials (also called single-variable Bell polynomials) from the point of view of analysis. Some new properties are included, and several analysis-related applications are mentioned. At the end of the paper one application is described in details—certain Fourier integrals involving and are evaluated in terms of Stirling numbers.

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New family of Whitney numbers

Filomat ◽

10.2298/fil1702309e ◽

2017 ◽

Vol 31 (2) ◽

pp. 309-320 ◽

Cited By ~ 2

Author(s):

B.S. El-Desouky ◽

Nenad Cakic ◽

F.A. Shiha

Keyword(s):

Generating Functions ◽

Recurrence Relations ◽

Stirling Numbers ◽

Explicit Formulas ◽

Basic Properties ◽

New Family ◽

Whitney Numbers ◽

Special Cases

In this paper we give a new family of numbers, called ??-Whitney numbers, which gives generalization of many types of Whitney numbers and Stirling numbers. Some basic properties of these numbers such as recurrence relations, explicit formulas and generating functions are given. Finally many interesting special cases are derived.

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Identities related to special polynomials and combinatorial numbers

Filomat ◽

10.2298/fil1715833y ◽

2017 ◽

Vol 31 (15) ◽

pp. 4833-4844 ◽

Cited By ~ 2

Author(s):

Eda Yuluklu ◽

Yilmaz Simsek ◽

Takao Komatsu

Keyword(s):

Generating Functions ◽

Functional Equations ◽

Stirling Numbers ◽

Bernoulli Numbers ◽

Euler Numbers ◽

Special Polynomials ◽

Central Factorial Numbers

The aim of this paper is to give some new identities and relations related to the some families of special numbers such as the Bernoulli numbers, the Euler numbers, the Stirling numbers of the first and second kinds, the central factorial numbers and also the numbers y1(n,k,?) and y2(n,k,?) which are given Simsek [31]. Our method is related to the functional equations of the generating functions and the fermionic and bosonic p-adic Volkenborn integral on Zp. Finally, we give remarks and comments on our results.

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