Implications of Spivey's Bell number formula.
Gould, H.W., Quaintance, Jocelyn (2008)
Journal of Integer Sequences [electronic only]
Similarity:
Displaying similar documents to “On -operators and summation of some -series.”
Implications of Spivey's Bell number formula.
Some topological and geometrical properties of a new difference sequence space.
Demiriz, Serkan, Çakan, Celal (2011)
Abstract and Applied Analysis
Similarity:
In praise of an elementary identity of Euler.
Bhatnagar, Gaurav (2011)
The Electronic Journal of Combinatorics [electronic only]
Similarity:
A series transformation formula and related polynomials.
Boyadzhiev, Khristo N. (2005)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Monomiality principle and eigenfunctions of differential operators.
Cação, Isabel, Ricci, Paolo E. (2011)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Remodified Bessel functions via coincidences and near coincidences.
Griffiths, Martin (2011)
Journal of Integer Sequences [electronic only]
Similarity:
Truncating binomial series with symbolic summation.
Paule, Peter, Schneider, Carsten (2007)
Integers
Similarity:
A symbolic operator approach to power series transformation-expansion formulas.
He, Tian-Xiao (2008)
Journal of Integer Sequences [electronic only]
Similarity:
Strictly increasing solutions of nonautonomous difference equations arising in hydrodynamics.
Rachůnek, Lukáš, Rachůnková, Irena (2010)
Advances in Difference Equations [electronic only]
Similarity:
Sums involving moments of reciprocals of binomial coefficients.
Belbachir, Hacène, Rahmani, Mourad, Sury, B. (2011)
Journal of Integer Sequences [electronic only]
Similarity:
Difference operators from interpolating moving least squares and their deviation from optimality
Thomas Sonar (2005)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
Similarity:
We consider the classical Interpolating Moving Least Squares (IMLS) interpolant as defined by Lancaster and Šalkauskas [Math. Comp. 37 (1981) 141–158] and compute the first and second derivative of this interpolant at the nodes of a given grid with the help of a basic lemma on Shepard interpolants. We compare the difference formulae with those defining optimal finite difference methods and discuss their deviation from optimality.
On a new summation formula for basic bilateral hypergeometric series and its applications.
Somashekara, D.D., Murthy, K.Narasimha, Shalini, S.L. (2011)
International Journal of Mathematics and Mathematical Sciences
Similarity:
On some generalized -difference Riesz sequence spaces and uniform Opial property.
Başarır, Metin, Öztürk, Mahpeyker (2011)
Journal of Inequalities and Applications [electronic only]
Similarity: