Showing total 20 results

1. Applying fractional calculus to analyze final consumption and gross investment influence on GDP

Author

Michal Fečkan and A. Badík

Subjects

Consumption (economics), regression model, caputo derivative, Investment (macroeconomics), QA273-280, Fractional calculus, 26d15, method of least squares, QA1-939, Econometrics, 26a51, 26a33, Probabilities. Mathematical statistics, General Economics, Econometrics and Finance, Mathematics

Abstract

This paper points out the possibility of suitable use of Caputo fractional derivative in regression model. Fitting historical data using a regression model seems to be useful in many fields, among other things, for the short-term prediction of further developments in the state variable. Therefore, it is important to fit the historical data as accurately as possible using the given variables. Using Caputo fractional derivative, this accuracy can be increased in the model described in this paper.

Published

2021

2. Intertwining of maxima of sum of translates functions with nonsingular kernels

Author

Balint Farkas, Bela Nagy, and Szilard Gy. Revesz

Subjects

Mathematics - Classical Analysis and ODEs, Applied Mathematics, General Mathematics, Computational Mechanics, Classical Analysis and ODEs (math.CA), FOS: Mathematics, 26A51, Computer Science Applications

Abstract

In previous papers we investigated so-called sum of translates functions $F({\mathbf{x}},t):=J(t)+\sum_{j=1}^n \nu_j K(t-x_j)$, where $J:[0,1]\to \underline{\mathbb{R}}:={\mathbb{R}}\cup\{-\infty\}$ is a "sufficiently nondegenerate" and upper-bounded "field function", and $K:[-1,1]\to \underline{\mathbb{R}}$ is a fixed "kernel function", concave both on $(-1,0)$ and $(0,1)$, and also satisfying the singularity condition $K(0)=\lim_{t\to 0} K(t)=-\infty$. For node systems ${\mathbf{x}}:=(x_1,\ldots,x_n)$ with $x_0:=0\le x_1\le\dots\le x_n\le 1=:x_{n+1}$, we analyzed the behavior of the local maxima vector ${\mathbf{m}}:=(m_0,m_1,\ldots,m_n)$, where $m_j:=m_j({\mathbf{x}}):=\sup_{x_j\le t\le x_{j+1}} F({\mathbf{x}},t)$. Among other results we proved a strong intertwining property: if the kernels are also decreasing on $(-1,0)$ and increasing on $(0,1)$, and the field function is upper semicontinuous, then for any two different node systems there are $i,j$ such that $m_i({\mathbf{x}})m_j({\mathbf{y}})$. Here we partially succeed to extend this even to nonsingular kernels., Comment: The current v3 is a very slightly corrected version with a few updated references (former ArXiv prerints have already appeared or accepted, and this is now signified). Note that a v2 version was uplodaed recently by mistake (that was intended to be an updated new version for another paper) - it was requested that v2 be removed from the records of this paper. arXiv admin note: text overlap with arXiv:2210.04348, arXiv:2112.10169

Published

2022

3. On bounds involving k-Appell’s hypergeometric functions

Author

Khalida Inayat Noor, Marcela V. Mihai, Muhammad Aslam Noor, and Muhammad Uzair Awan

Subjects

convex functions, Pure mathematics, Appell series, Mathematics::Classical Analysis and ODEs, 0211 other engineering and technologies, 33B15, 02 engineering and technology, 01 natural sciences, Barnes integral, Hypergeometric identity, k-fractional, inequalities, k-Appell’s hypergeometric functions, Discrete Mathematics and Combinatorics, 0101 mathematics, Mathematics, Basic hypergeometric series, 021103 operations research, Confluent hypergeometric function, Hypergeometric function of a matrix argument, lcsh:Mathematics, Research, Applied Mathematics, 010102 general mathematics, lcsh:QA1-939, 33C65, Generalized hypergeometric function, Algebra, 26D15, harmonic convex functions, Lauricella hypergeometric series, 26A51, Analysis

Abstract

In this paper, we derive a new extension of Hermite-Hadamard’s inequality via k-Riemann-Liouville fractional integrals. Two new k-fractional integral identities are also derived. Then, using these identities as an auxiliary result, we obtain some new k-fractional bounds which involve k-Appell’s hypergeometric functions. These bounds can be viewed as new k-fractional estimations of trapezoidal and mid-point type inequalities. These results are obtained for the functions which have the harmonic convexity property. We also discuss some special cases which can be deduced from the main results of the paper.

Published

2017

4. Generalized Fractal Jensen–Mercer and Hermite–Mercer type inequalities via h-convex functions involving Mittag–Leffler kernel

Author

Saad Ihsan Butt, Saba Yousaf, Adnan Aslam, Peng Xu, and Tariq Javed Zia

Subjects

Pure mathematics, Hermite polynomials, Mathematics::Classical Analysis and ODEs, General Engineering, Function (mathematics), Type (model theory), Engineering (General). Civil engineering (General), Fractional calculus, Fractal, 26D15, Kernel (statistics), 26A51, Differentiable function, TA1-2040, 26A33, Convex function, Mathematics

Abstract

In this paper, we present generalized Jensen-Mercer inequality for a generalized h-convex function on fractal sets. We proved Hermite-Hadamard-Mercer local fractional integral inequalities via integral operators pertaining Mittag-Leffler kernel. Also, we drive two new local fractional integral identities for differentiable functions. By employing these integral identities, we derive some new Hermite-Mercer type inequalities for generalized h-convex function in local fractional calculus settings. Finally, we give some examples to emphasize the applications of derived results. These results will be a significant addition to Jensen-type inequalities in the literature.

Published

2022

5. Some new inequalities for generalized convex functions pertaining generalized fractional integral operators and their applications

Author

M. Toseef, A. Kashuri, Muhammad Ali, and Mujahid Abbas

Subjects

convexity, 010102 general mathematics, 01 natural sciences, QA273-280, 010101 applied mathematics, Algebra, raina’s function, 26d15, inequalities, error estimation, 26d07, QA1-939, 26a51, 0101 mathematics, 26a33, Convex function, special means, Probabilities. Mathematical statistics, General Economics, Econometrics and Finance, 26d10, Mathematics

Abstract

In this paper, authors establish a new identity for a differentiable function using generic integral operators. By applying it, some new integral inequalities of trapezium, Ostrowski and Simpson type are obtained. Moreover, several special cases have been studied in detail. Finally, many useful applications have been found.

Published

2021

6. Refinements of quantum Hermite-Hadamard-type inequalities

Author

Sundas Khan, Muhammad Ali, Hüseyin Budak, Yu-Ming Chu, and [Belirlenecek]

Subjects

Pure mathematics, Inequality, General Mathematics, media_common.quotation_subject, Mathematics::Classical Analysis and ODEs, Quantum calculus, Type (model theory), quantum calculus, 01 natural sciences, 26d15, Hadamard transform, Hermite–Hadamard inequality, QA1-939, 26a51, 0101 mathematics, Quantum, 26d10, Mathematics, media_common, convex function, Hermite polynomials, 010102 general mathematics, Convex, 010101 applied mathematics, Integral-Inequalities, Hermite-Hadamard inequality, q-integral, Convex function

Abstract

In this paper, we first obtain two new quantum Hermite-Hadamard-type inequalities for newly defined quantum integral. Then we establish several refinements of quantum Hermite-Hadamard inequalities. Natural Science Foundation of ChinaNational Natural Science Foundation of China (NSFC) [11971241] This work was supported by the Natural Science Foundation of China (Grant No. 11971241) . WOS:000684960600001 2-s2.0-85112658736

Published

2021

7. On a Separation Theorem for Delta-Convex Functions

Author

Andrzej Olbryś

Subjects

Delta, Pure mathematics, lcsh:Mathematics, General Mathematics, convex functins, 010102 general mathematics, delta-convex function, 02 engineering and technology, General Medicine, 39b22, lcsh:QA1-939, 01 natural sciences, 26b25, 39b62, 0202 electrical engineering, electronic engineering, information engineering, lorentz cone, 26a51, 020201 artificial intelligence & image processing, Mutual fund separation theorem, 0101 mathematics, Convex function, Mathematics

Abstract

In the present paper we establish necessary and sufficient conditions under which two functions can be separated by a delta-convex function. This separation will be understood as a separation with respect to the partial order generated by the Lorentz cone. An application to a stability problem for delta-convexity is also given.

Published

2020

8. Majorization, 'useful' Csiszár divergence and 'useful' Zipf-Mandelbrot law

Author

Đilda Pečarić, Naveed Latif, and Josip Pečarić

Subjects

green functions, Zipf–Mandelbrot law, convex functions, General Mathematics, 010102 general mathematics, majorization inequality, 94a17, 94a15, 01 natural sciences, “useful” csiszár divergence, 010101 applied mathematics, 26d15, “Useful” Csiszár divergence, “Useful” Zipf-Mandelbrot law, Majorization inequality, Convex functions, Green functions, Information theory, QA1-939, 26a51, “useful” zipf-mandelbrot law, Statistical physics, 0101 mathematics, Divergence (statistics), Majorization, Mathematics, information theory

Abstract

In this paper, we consider the definition of “useful” Csiszár divergence and “useful” Zipf-Mandelbrot law associated with the real utility distribution to give the results for majorizatioQn inequalities by using monotonic sequences. We obtain the equivalent statements between continuous convex functions and Green functions via majorization inequalities, “useful” Csiszár functional and “useful” Zipf-Mandelbrot law. By considering “useful” Csiszár divergence in the integral case, we give the results for integral majorization inequality. Towards the end, some applications are given.

Published

2018

9. Generalizations of Steffensen’s inequality via the extension of Montgomery identity

Author

Anamarija Perušić Pribanić, Andrea Aglić Aljinović, and Josip Pečarić

Subjects

Inequality, grüss-type inequality, General Mathematics, media_common.quotation_subject, 010102 general mathematics, ostrowski-type inequality, 01 natural sciences, Genealogy, n-convex functions, 010101 applied mathematics, Extension (metaphysics), 26d15, Steffensen's inequality, n-convex functions, Montgomery identity, Ostrowski-type inequality, Grüss-type inequality, Identity (philosophy), steffensen’s inequality, QA1-939, 26a51, Steffensen's inequality, n-convex functions, Montgomery identity, 0101 mathematics, Mathematics, montgomery identity, media_common

Abstract

In this paper, we obtained new generalizations of Steffensen’s inequality for n-convex functions by using extension of Montgomery identity via Taylor’s formula. Since 1-convex functions are nondecreasing functions, new inequalities generalize Stefensen’s inequality. Related Ostrowski type inequalities are also provided. Bounds for the reminders in new identities are given by using the Chebyshev and Grüss type inequalities.

Published

2018

10. Inequalities via s−convexity and log −convexity

Author

Ahmet Ocak Akdemir, Merve Avci Ardic, and M. Emin Özdemir

Subjects

convex function, hölder inequality, Algebra and Number Theory, Inequality, Applied Mathematics, media_common.quotation_subject, s−convex function, log −convex function, Absolute value (algebra), Convexity, Numerical integration, 26a15, 26a16, ostrowski inequality, QA1-939, 26a51, Applied mathematics, power-mean inequality, Geometry and Topology, 26d10, Mathematics, media_common, Second derivative

Abstract

In this paper, we obtain some new inequalities for functions whose second derivatives’ absolute value is s−convex and log −convex. Also, we give some applications for numerical integration.

Published

2017

11. Windschitl type approximation formulas for the gamma function

Author

Yang, Zhen-Hang and Tian, Jing-Feng

Subjects

Monotonicity, Factorial, Monotonic function, 010103 numerical & computational mathematics, Type (model theory), 33B10, 01 natural sciences, Convexity, 26A48, Windschitl type approximation formula, Discrete Mathematics and Combinatorics, Applied mathematics, 0101 mathematics, Gamma function, Mathematics, Research, lcsh:Mathematics, Applied Mathematics, 010102 general mathematics, lcsh:QA1-939, Inequality, Yield (chemistry), 41A10, 26A51, Analysis

Abstract

In this paper, we present four new Windschitl type approximation formulas for the gamma function. By some unique ideas and techniques, we prove that four functions combined with the gamma function and Windschitl type approximation formulas have good properties, such as monotonicity and convexity. These not only yield some new inequalities for the gamma and factorial functions, but also provide a new proof of known inequalities and strengthen known results.

Published

2018

12. Different types of quantum integral inequalities via

Author

Yao, Zhang, Ting-Song, Du, Hao, Wang, and Yan-Jun, Shen

Subjects

\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$(\alpha, m)$\end{document}(α,m)-convex functions, 26D15, Research, Quantum integral inequalities, 26A51, Hermite–Hadamard’s inequality, 34A08, Simpson’s inequality, 26D10

Abstract

In this paper, based on \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$(\alpha,m)$\end{document}(α,m)-convexity, we establish different type inequalities via quantum integrals. These inequalities generalize some results given in the literature.

Published

2018

13. General fractional integral inequalities for convex and

Author

Naveed Latif, Atiq Ur Rehman, Khuram Ali Khan, Ghulam Farid, and Sajid Mehmood

Subjects

Pure mathematics, Inequality, media_common.quotation_subject, MathematicsofComputing_NUMERICALANALYSIS, 33E12, 01 natural sciences, symbols.namesake, Mathematics::Probability, Convex function, Hadamard inequality, Mittag-Leffler function, Discrete Mathematics and Combinatorics, 0101 mathematics, Mathematics, media_common, Applied Mathematics, lcsh:Mathematics, Research, 010102 general mathematics, Regular polygon, Function (mathematics), lcsh:QA1-939, 010101 applied mathematics, Generalized fractional integral operators, symbols, m-convex function, 26A51, 26A33, Analysis

Abstract

In this paper some new general fractional integral inequalities for convex and m-convex functions by involving an extended Mittag-Leffler function are presented. These results produce inequalities for several kinds of fractional integral operators. Some interesting special cases of our main results are also pointed out.

Published

2018

14. Some new

Author

Nwaeze, Eze R., Kermausuor, Seth, and Tameru, Ana M.

Subjects

Hermite–Hadamard inequality, Strongly η-quasiconvex, 26D15, Research, Riemann–Liouville fractional integrals, 26A51, 41A55, 26E60

Abstract

A new class of quasiconvexity called strongly η-quasiconvex function was introduced in (Awan et al. in Filomat 31(18):5783–5790, 2017). In this paper, we obtain some new k-Riemann–Liouville fractional integral inequalities associated with this class of functions. For specific values of the associated parameters, we recover results due to Dragomir and Pearce (Bull. Aust. Math. Soc. 57:377–385, 1998), Ion (Ann. Univ. Craiova, Math. Sci. Ser. 34:82–87, 2007), and Alomari et al. (RGMIA Res. Rep. Collect. 12(Supplement):Article ID 14, 2009).

Published

2018

15. Estimation type results related to Fejér inequality with applications

Author

M. Rostamian Delavar, Sever S Dragomir, and M. De la Sen

Subjects

Inequality, Random variable, media_common.quotation_subject, Type (model theory), 01 natural sciences, Convex function, Discrete Mathematics and Combinatorics, Applied mathematics, 0101 mathematics, Mathematics, media_common, Estimation, Mathematics::Functional Analysis, Applied Mathematics, lcsh:Mathematics, Research, 010102 general mathematics, lcsh:QA1-939, 52A01, Connection (mathematics), 010101 applied mathematics, 26D15, Fejér inequality, 26A51, Trapezoidal formula, Analysis

Abstract

This paper deals with some new theorems and inequalities about a Fejér type integral inequality which estimate the difference between the right and middle part in Fejér inequality with new bounds. Also some applications to higher moments of random variables, an error estimate for trapezoidal formula, and some inequalities in connection with special means are given.

Published

2017

16. Conformable fractional Hermite-Hadamard inequalities via preinvex functions

Author

Khalida Inayat Noor, Marcela V. Mihai, Muhammad Uzair Awan, and Muhammad Aslam Noor

Subjects

Pure mathematics, Class (set theory), Hermite polynomials, Property (philosophy), 010102 general mathematics, convex, Regular polygon, Hermite-Hadamard, 010103 numerical & computational mathematics, Type (model theory), Conformable matrix, 01 natural sciences, 26D15, Hadamard transform, fractional, 26A51, preinvex, 0101 mathematics, 26A33, conformable, Mathematics

Abstract

The aim of this paper is to obtain some new refinements of Hermite-Hadamard type inequalities via conformable fractional integrals. The class of functions used for deriving the inequalities have the preinvexity property. We also discuss some special cases.

Published

2017

17. An accurate approximation formula for gamma function

Author

Jing-Feng Tian and Zhen-Hang Yang

Subjects

Monotonicity, Applied Mathematics, lcsh:Mathematics, Research, 010102 general mathematics, 33B15, lcsh:QA1-939, 01 natural sciences, 010101 applied mathematics, Combinatorics, 26A48, Convexity, 26D15, Mathematics - Classical Analysis and ODEs, Gamma function, Classical Analysis and ODEs (math.CA), FOS: Mathematics, Discrete Mathematics and Combinatorics, 26A51, 0101 mathematics, Approximation, 33B15, 26D15 (Primary), 26A48, 26A51(Secondary), Analysis, Mathematics

Abstract

In this paper, we present a very accurate approximation for gamma function: \begin{equation*} \Gamma \left( x+1\right) \thicksim \sqrt{2\pi x}\left( \dfrac{x}{e}\right) ^{x}\left( x\sinh \frac{1}{x}\right) ^{x/2}\exp \left( \frac{7}{324}\frac{1}{ x^{3}\left( 35x^{2}+33\right) }\right) =W_{2}\left( x\right) \end{equation*} as $x\rightarrow \infty $, and prove that the function $x\mapsto \ln \Gamma \left( x+1\right) -\ln W_{2}\left( x\right) $ is strictly decreasing and convex from $\left( 1,\infty \right) $ onto $\left( 0,\beta \right) $, where \begin{equation*} \beta =\frac{22\,025}{22\,032}-\ln \sqrt{2\pi \sinh 1}\approx 0.00002407. \end{equation*}, Comment: 9 pages

Published

2017

18. Some perturbed trapezoid inequalities for convex, $s$-convex and $tgs$-convex functions and applications

Author

Mevlut Tunc and Ümmügülsüm Şanal

Subjects

convex function, Convex analysis, Pure mathematics, Hermite-Hadamard inequalities, Regular polygon, perturbed trapezoid inequality, Subderivative, $s$-convex function, $tgs$-convex function, Identity (mathematics), 26D15, Convex optimization, means, 26A51, 26E60, Differentiable function, Convex function, 26D10, Geometry and topology, Mathematics

Abstract

In this paper, the Authors establish a new identity for twice differentiable functions. Afterwards some new inequalities are presented related to perturbed trapezoid inequality for the classes of functions whose second derivatives of absolute values are convex, $s$-convex and $tgs$-convex. Last of all, applications to special means have also been presented.

Published

2015

19. On some Hermite-Hadamard type inequalities for (s, QC)-convex functions

Author

Feng Qi and Ying Wu

Subjects

Discrete mathematics, Mathematical optimization, Multidisciplinary, Hermite polynomials, Research, 010102 general mathematics, Mathematics::Classical Analysis and ODEs, Computer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing), Hermite–Hadamard’s integral inequality, Type (model theory), 01 natural sciences, 010101 applied mathematics, Mathematics::Logic, Convex function, 26D15, Hadamard transform, 26A51, 41A55, 26E60, 0101 mathematics, (s, QC)-Convex function on the co-ordinates, 26D20, Mathematics

Abstract

In the paper, the authors introduce a new notion “\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$(s,\text {QC})$$\end{document}(s,QC)-convex function on the co-ordinates” and establish some Hermite–Hadamard type integral inequalities for \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$(s,\text {QC})$$\end{document}(s,QC)-convex functions on the co-ordinates.

Published

2015

20. Extreme Results on Certain Generalized Riemann Derivatives

Author

John C. Georgiou

Subjects

Pure mathematics, convexity, 54C50, Convexity, 11A55, 26A27, Riemann hypothesis, symbols.namesake, non-differentiability, 26B08, divided differences, Calculus, symbols, 26A51, 40A30, Geometry and Topology, Divided differences, generalized derivatives, 26A24, Analysis, Mathematics

Abstract

In this paper the following question is investigated. Given a natural number \(r\) and numbers \(\alpha_j,\beta_j\) for \(j=0,1,\dots,r\) satisfying \( \alpha_0

Published

2015