About Some Linear Operators

Voronovskaja Type Theorem

Using the method of Jakimovski and Leviatan from their work in 1969, we construct a general class of linear positive operators. We study the convergence, the evaluation for the rate of convergence in terms of the first modulus of smoothness and we give a Voronovskaja-type theorem for these operators.

A new kind of Bi-variate $ \lambda $ -Bernstein-Kantorovich type operator with shifted knots and its associated GBS form

Mathematical Foundations of Computing ◽

10.3934/mfc.2021025 ◽

2021 ◽

Vol 0 (0) ◽

pp. 0

Author(s):

Purshottam Narain Agrawal ◽

Behar Baxhaku ◽

Rahul Shukla

Keyword(s):

Rate Of Convergence ◽

Type Theorem ◽

Degree Of Approximation ◽

Modulus Of Smoothness ◽

Type Operator ◽

Mixed Modulus Of Smoothness ◽

Differentiable Functions ◽

Mixed Modulus ◽

Approximation Of A Function

<p style='text-indent:20px;'>In this paper, we introduce a bi-variate case of a new kind of <inline-formula><tex-math id="M1">\begin{document}$ \lambda $\end{document}</tex-math></inline-formula>-Bernstein-Kantorovich type operator with shifted knots defined by Rahman et al. [<xref ref-type="bibr" rid="b31">31</xref>]. The rate of convergence of the bi-variate operators is obtained in terms of the complete and partial moduli of continuity. Next, we give an error estimate in the approximation of a function in the Lipschitz class and establish a Voronovskaja type theorem. Also, we define the associated GBS(Generalized Boolean Sum) operators and study the degree of approximation of Bögel continuous and Bögel differentiable functions by these operators with the aid of the mixed modulus of smoothness. Finally, we show the rate of convergence of the bi-variate operators and their GBS case for certain functions by illustrative graphics and tables using MATLAB algorithms.</p>

On the rate of convergence of some integral operators for functions of bounded variation

Studia Scientiarum Mathematicarum Hungarica ◽

10.1556/sscmath.42.2005.2.8 ◽

2005 ◽

Vol 42 (2) ◽

pp. 235-252

Author(s):

Octavian Agratini

Keyword(s):

Rate Of Convergence ◽

Bounded Variation ◽

General Class ◽

Pointwise Convergence ◽

Integral Operators ◽

Positive Operators ◽

Functions Of Bounded Variation ◽

The One

In the present paper we define a general class Bn,a, a =1, of Durrmeyer-Bézier type of linear positive operators. Our main aim is to estimate the rate of pointwise convergence for functions f at those points x at which the one-sided limits f(x+) and f(x-) exist. As regards these functions defined on an interval J certain conditions are required. We discuss two distinct cases: Int (J)=(0,8) and Int (J)=(0,1).

The Voronovskaja theorem for some linear positive operators defined by infinite sum

Creative Mathematics and Informatics ◽

10.37193/cmi.2011.01.14 ◽

2011 ◽

Vol 20 (1) ◽

pp. 55-61

Author(s):

DAN MICLAUS ◽

◽

OVIDIU T. POP ◽

Keyword(s):

Type Theorem ◽

Positive Operators ◽

Szász Operators ◽

Infinite Sum

The main goal of this paper is to establish a Voronovskaja type theorem for the Szasz-Mirakjan-Schurer operators. As a particular case, we get also the Voronovskaja type theorem for the well known Mirakjan-Favard-Szasz operators.

Approximation by bivariate generalized Bernstein–Schurer operators and associated GBS operators

Advances in Difference Equations ◽

10.1186/s13662-020-03125-7 ◽

2020 ◽

Vol 2020 (1) ◽

Cited By ~ 1

Author(s):

S. A. Mohiuddine

Keyword(s):

Rate Of Convergence ◽

Differentiable Function ◽

Type Theorem ◽

Modulus Of Smoothness ◽

Order Of Approximation ◽

Mixed Modulus Of Smoothness ◽

Gbs Operators ◽

Mixed Modulus ◽

Boolean Sum

AbstractWe construct the bivariate form of Bernstein–Schurer operators based on parameter α. We establish the Voronovskaja-type theorem and give an estimate of the order of approximation with the help of Peetre’s K-functional of our newly defined operators. Moreover, we define the associated generalized Boolean sum (shortly, GBS) operators and estimate the rate of convergence by means of mixed modulus of smoothness. Finally, the order of approximation for Bögel differentiable function of our GBS operators is presented.

q -Laguerre type linear positive operators

Studia Scientiarum Mathematicarum Hungarica ◽

10.1556/sscmath.44.2007.1.7 ◽

2007 ◽

Vol 44 (1) ◽

pp. 65-80 ◽

Cited By ~ 1

Author(s):

Mehmet Özarslan

Keyword(s):

Rate Of Convergence ◽

Modulus Of Continuity ◽

Positive Operators ◽

Linear Operators ◽

Positive Linear Operators ◽

Lipschitz Class ◽

Approximation Properties ◽

The Difference

The main object of this paper is to define the q -Laguerre type positive linear operators and investigate the approximation properties of these operators. The rate of convegence of these operators are studied by using the modulus of continuity, Peetre’s K -functional and Lipschitz class functional. The estimation to the difference | Mn +1, q ( ƒ ; χ )− Mn , q ( ƒ ; χ )| is also obtained for the Meyer-König and Zeller operators based on the q -integers [2]. Finally, the r -th order generalization of the q -Laguerre type operators are defined and their approximation properties and the rate of convergence of this r -th order generalization are also examined.

Bernstein-type operators which preserve exactly two test functions

Studia Scientiarum Mathematicarum Hungarica ◽

10.1556/sscmath.50.2013.4.1249 ◽

2013 ◽

Vol 50 (4) ◽

pp. 393-405 ◽

Cited By ~ 1

Author(s):

Ovidiu Pop ◽

Dan Bǎrbosu ◽

Petru Braica

Keyword(s):

Convergence Theorem ◽

General Class ◽

Type Theorem ◽

Positive Operators ◽

Bernstein Operators ◽

Test Functions ◽

Approximation Properties ◽

Bernstein Type ◽

Voronovskaja Type Theorem

A general class of linear and positive operators dened by nite sum is constructed. Some of their approximation properties, including a convergence theorem and a Voronovskaja-type theorem are established. Next, the operators of the considered class which preserve exactly two test functions from the set {e0, e1, e2} are determined. It is proved that the test functions e0 and e1 are preserved only by the Bernstein operators, the test functions e0 and e2 only by the King operators while the test functions e1 and e2 only by the operators recently introduced by P. I. Braica, O. T. Pop and A. D. Indrea in [4].

A new modification of Durrmeyer type mixed hybrid operators

Carpathian Journal of Mathematics ◽

10.37193/cjm.2018.01.05 ◽

2018 ◽

Vol 34 (1) ◽

pp. 47-56

Author(s):

ARUN KAJLA ◽

◽

TUNCER ACAR ◽

Keyword(s):

General Class ◽

Approximation Theorem ◽

Type Theorem ◽

Weighted Approximation ◽

Local Approximation ◽

Szász Operators ◽

Integrable Functions ◽

Durrmeyer Variant

In 2008 V. Mihes¸an constructed a general class of linear positive operators generalizing the Szasz operators. In ´ this article, a Durrmeyer variant of these operators is introduced which is a method to approximate the Lebesgue integrable functions. First, we derive some indispensable auxiliary results in the second section. We present a quantitative Voronovskaja type theorem, local approximation theorem by means of second order modulus of continuity and weighted approximation for these operators. The rate of convergence for differential functions whose derivatives are of bounded variation is also obtained.

Bezier variant of genuine-Durrmeyer type operators based on Polya distribution

Carpathian Journal of Mathematics ◽

10.37193/cjm.2017.01.08 ◽

2017 ◽

Vol 33 (1) ◽

pp. 73-86

Author(s):

TRAPTI NEER ◽

◽

ANA MARIA ACU ◽

P. N. AGRAWAL ◽

◽

...

Keyword(s):

Rate Of Convergence ◽

Approximation Theorem ◽

Type Theorem ◽

Modulus Of Smoothness ◽

Global Approximation ◽

Polya Distribution ◽

Durrmeyer Type Operators ◽

Direct Approximation ◽

Bézier Variant

In this paper we introduce the Bezier variant of genuine-Durrmeyer type operators having Polya basis functions. We give a global approximation theorem in terms of second order modulus of continuity, a direct approximation theorem by means of the Ditzian-Totik modulus of smoothness and a Voronovskaja type theorem by using the Ditzian-Totik modulus of smoothness. The rate of convergence for functions whose derivatives are of bounded variation is obtained. Further, we show the rate of convergence of these operators to certain functions by illustrative graphics using the Maple algorithms.

Generalized p,q-Gamma-type operators

Journal of Function Spaces ◽

10.1155/2020/8978121 ◽

2020 ◽

Vol 2020 ◽

pp. 1-10

Author(s):

Wen-Tao Cheng ◽

Qing-Bo Cai

Keyword(s):

Rate Of Convergence ◽

Modulus Of Continuity ◽

Type Theorem ◽

Weighted Approximation ◽

Local Approximation ◽

Pointwise Estimates ◽

Approximation Properties ◽

Central Moments ◽

Voronovskaja Type Theorem

In the present paper, the generalized p,q-gamma-type operators based on p,q-calculus are introduced. The moments and central moments are obtained, and some local approximation properties of these operators are investigated by means of modulus of continuity and Peetre K-functional. Also, the rate of convergence, weighted approximation, and pointwise estimates of these operators are studied. Finally, a Voronovskaja-type theorem is presented.

Iterative combinations for Srivastava–Gupta operators

Asian-European Journal of Mathematics ◽

10.1142/s1793557121501084 ◽

2020 ◽

pp. 2150108

Author(s):

Prerna Maheshwari Sharma

Keyword(s):

Rate Of Convergence ◽

Modulus Of Continuity ◽

Simultaneous Approximation ◽

Higher Order ◽

Positive Operators ◽

Integral Type ◽

General Family ◽

Special Cases

In the year 2003, Srivastava–Gupta proposed a general family of linear positive operators, having some well-known operators as special cases. They investigated and established the rate of convergence of these operators for bounded variations. In the last decade for modified form of Srivastava–Gupta operators, several other generalizations also have been discussed. In this paper, we discuss the generalized modified Srivastava–Gupta operators considered in [H. M. Srivastava and V. Gupta, A certain family of summation-integral type operators, Math. Comput. Modelling 37(12–13) (2003) 1307–1315], by using iterative combinations in ordinary and simultaneous approximation. We may have better approximation in higher order of modulus of continuity for these operators.