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Articles de revues sur le sujet « Quasi-convex Functions »

Auteur : Grafiati
Publié le 9 mars 2023
Mis à jour le 10 mars 2023

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1

Liu, Zheng. « ON INEQUALITIES RELATED TO SOME QUASI-CONVEX FUNCTIONS ». Issues of Analysis 22, no 2 (décembre 2015) : 45–64. http://dx.doi.org/10.15393/j3.art.2015.2869.

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2

Zhang, Kewei. « Quasi-convex functions on subspaces and boundaries of quasi-convex sets ». Proceedings of the Royal Society of Edinburgh : Section A Mathematics 134, no 4 (août 2004) : 783–99. http://dx.doi.org/10.1017/s0308210500003486.

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We embed truncations of the epi-graph of quasi-convex functions defined on linear subspaces E ⊂ MN × n of real matrices into MN × n to bound quasi-convex sets by the graph of the functions. We also characterize subspaces E on which all quasi-convex functions are convex and show, by using the Tarski–Seidenberg theorem in real algebraic geometry, that if dim (E) > N + n − 1, then there exist non-trivial quasi-convex functions on E.
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3

Beer, G., et R. Lucchetti. « Minima of quasi-convex functions ». Optimization 20, no 5 (janvier 1989) : 581–96. http://dx.doi.org/10.1080/02331938908843480.

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4

Ubhaya, Vasant A. « Uniform approximation by quasi-convex and convex functions ». Journal of Approximation Theory 55, no 3 (décembre 1988) : 326–36. http://dx.doi.org/10.1016/0021-9045(88)90099-8.

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5

Ubhaya, Vasant A. « Lp approximation by quasi-convex and convex functions ». Journal of Mathematical Analysis and Applications 139, no 2 (mai 1989) : 574–85. http://dx.doi.org/10.1016/0022-247x(89)90130-3.

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6

Hazim, Revan I., et Saba N. Majeed. « Quasi Semi and Pseudo Semi (p,E)-Convexity in Non-Linear Optimization Programming ». Ibn AL-Haitham Journal For Pure and Applied Sciences 36, no 1 (20 janvier 2023) : 355–66. http://dx.doi.org/10.30526/36.1.2928.

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The class of quasi semi -convex functions and pseudo semi -convex functions are presented in this paper by combining the class of -convex functions with the class of quasi semi -convex functions and pseudo semi -convex functions, respectively. Various non-trivial examples are introduced to illustrate the new functions and show their relationships with -convex functions recently introduced in the literature. Different general properties and characteristics of this class of functions are established. In addition, some optimality properties of generalized non-linear optimization problems are discussed. In this generalized optimization problems, we used, as the objective function, quasi semi -convex (respectively, strictly quasi semi -convex functions and pseudo semi -convex functions), and the constraint set is -convex set.
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7

Hinderer, A., et M. Stieglitz. « Minimization of quasi-convex symmetric and of discretely quasi-convex symmetric functions ». Optimization 36, no 4 (janvier 1996) : 321–32. http://dx.doi.org/10.1080/02331939608844187.

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8

Meftah, B., et A. Souahi. « Cebyšev inequalities for co-ordinated \(QC\)-convex and \((s,QC)\)-convex ». Engineering and Applied Science Letters 4, no 1 (23 janvier 2021) : 14–20. http://dx.doi.org/10.30538/psrp-easl2021.0057.

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In this paper, we establish some new Cebyšev type inequalities for functions whose modulus of the mixed derivatives are co-ordinated quasi-convex and \(\alpha \)-quasi-convex and \(s\)-quasi-convex functions.
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9

Youness, Ebrahim A. « Quasi and strictly quasiE-convex functions ». Journal of Statistics and Management Systems 4, no 2 (janvier 2001) : 201–10. http://dx.doi.org/10.1080/09720510.2001.10701038.

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10

Ivanenko, Y., M. Nedic, M. Gustafsson, B. L. G. Jonsson, A. Luger et S. Nordebo. « Quasi-Herglotz functions and convex optimization ». Royal Society Open Science 7, no 1 (janvier 2020) : 191541. http://dx.doi.org/10.1098/rsos.191541.

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We introduce the set of quasi-Herglotz functions and demonstrate that it has properties useful in the modelling of non-passive systems. The linear space of quasi-Herglotz functions constitutes a natural extension of the convex cone of Herglotz functions. It consists of differences of Herglotz functions and we show that several of the important properties and modelling perspectives are inherited by the new set of quasi-Herglotz functions. In particular, this applies to their integral representations, the associated integral identities or sum rules (with adequate additional assumptions), their boundary values on the real axis and the associated approximation theory. Numerical examples are included to demonstrate the modelling of a non-passive gain medium formulated as a convex optimization problem, where the generating measure is modelled by using a finite expansion of B-splines and point masses.
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11

Dragomir, S. S., et C. E. M. Pearce. « Quasi-convex functions and Hadamard's inequality ». Bulletin of the Australian Mathematical Society 57, no 3 (juin 1998) : 377–85. http://dx.doi.org/10.1017/s0004972700031786.

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Some extensions of quasi-convexity appearing in the literature are explored and relations found between them. Hadamard's inequality is connected tenaciously with convexity and versions of it are shown to hold in our setting. Our theorems extend and unify a number of known results. In particular, we derive a generalised Kenyon-Klee theorem.
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12

Mrowiec, Jacek, et Teresa Rajba. « Quasi-convex functions of higher order ». Mathematical Inequalities & ; Applications, no 4 (2019) : 1335–54. http://dx.doi.org/10.7153/mia-2019-22-92.

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13

Sun, Mingbao, et Xiaoping Yang. « Quasi-convex Functions in Carnot Groups* ». Chinese Annals of Mathematics, Series B 28, no 2 (5 mars 2007) : 235–42. http://dx.doi.org/10.1007/s11401-005-0052-9.

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14

Özdemir, M. Emin, Ahmet Ocak Akdemir et Çetin Yıldız. « On co-ordinated quasi-convex functions ». Czechoslovak Mathematical Journal 62, no 4 (décembre 2012) : 889–900. http://dx.doi.org/10.1007/s10587-012-0072-z.

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15

Syau, Yu-Ru. « A note on convex functions ». International Journal of Mathematics and Mathematical Sciences 22, no 3 (1999) : 525–34. http://dx.doi.org/10.1155/s0161171299225252.

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In this paper, we give two weak conditions for a lower semi-continuous function on then-dimensional Euclidean spaceRnto be a convex function. We also present some results for convex functions, strictly convex functions, and quasi-convex functions.
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16

Mahmood, Shahid, Sarfraz Nawaz Malik, Sumbal Farman, S. M. Jawwad Riaz et Shabieh Farwa. « Uniformly Alpha-Quasi-Convex Functions Defined by Janowski Functions ». Journal of Function Spaces 2018 (2018) : 1–7. http://dx.doi.org/10.1155/2018/6049512.

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In this work, we aim to introduce and study a new subclass of analytic functions related to the oval and petal type domain. This includes various interesting properties such as integral representation, sufficiency criteria, inclusion results, and the convolution properties for newly introduced class.
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17

Pearce, C. E. M., et A. M. Rubinov. « P-functions, Quasi-convex Functions, and Hadamard-type Inequalities ». Journal of Mathematical Analysis and Applications 240, no 1 (décembre 1999) : 92–104. http://dx.doi.org/10.1006/jmaa.1999.6593.

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18

Choudhary, Masood Ahmed, et ToseefAhmed Malik. « Some properties of harmonic convex and harmonic quasi-convex functions ». International Journal of Mathematics Trends and Technology 56, no 4 (25 avril 2018) : 252–57. http://dx.doi.org/10.14445/22315373/ijmtt-v56p536.

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19

Kim, Hoonjoo. « Some properties of quasi-convex functions on abstract convex spaces ». International Journal of Mathematical Analysis 9 (2015) : 2431–40. http://dx.doi.org/10.12988/ijma.2015.59238.

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20

Noor, Khalida Inayat. « Some classes of alpha-quasi-convex functions ». International Journal of Mathematics and Mathematical Sciences 11, no 3 (1988) : 497–501. http://dx.doi.org/10.1155/s0161171288000584.

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LetC[C,D],−1≤D<C≤1denote the class of functionsg,g(0)=0,g′(0)=1, analytic in the unit diskEsuch that(zg′(z))′g′(z)is subordinate to1+CZ1+DZ,z∈E. We investigate some classes of Alpha-Quasi-Convex Functionsf, withf(0)=f′(0)−1=0for which there exists ag∈C[C,D]such that(1−α)f′(z)g′(z)+α(zf′(z))′g′(z)is subordinate to1+AZ1+BZ′,−1≤B<A≤1. Integral representation, coefficient bounds are obtained. It is shown that some of these classes are preserved under certain integral operators.
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21

Altıntaş, Osman, et Melike Aydoğan. « On the Coefficients of Quasi-Convex Functions ». Journal of Physics : Conference Series 1562 (juin 2020) : 012002. http://dx.doi.org/10.1088/1742-6596/1562/1/012002.

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22

Noor, Khalida Inayat. « On quasi-convex functions and related topics ». International Journal of Mathematics and Mathematical Sciences 10, no 2 (1987) : 241–58. http://dx.doi.org/10.1155/s0161171287000310.

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LetSbe the class of functionsfwhich are analytic and univalent in the unit discEwithf(0)=0,f′(0)=1. LetC,S*andKbe the classes of convex, starlike and close-to-convex functions respectively. The classC*of quasi-convex functions is defined as follows:Letfbe analytic inEandf(0),f′(0)=1. Thenf ϵ C*if and only if there exists ag ϵ Csuch that, forz ϵ ERe(zf′(z))′g′(z)>0.In this paper, an up-to-date complete study of the classC*is given. Its basic properties, its relationship with other subclasses ofS, coefficient problems, arc length problem and many other results are included in this study. Some related classes are also defined and studied in some detail.
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23

Khan, Shahid, Şahsene Altınkaya, Qin Xin, Fairouz Tchier, Sarfraz Nawaz Malik et Nazar Khan. « Faber Polynomial Coefficient Estimates for Janowski Type bi-Close-to-Convex and bi-Quasi-Convex Functions ». Symmetry 15, no 3 (27 février 2023) : 604. http://dx.doi.org/10.3390/sym15030604.

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Motivated by the recent work on symmetric analytic functions by using the concept of Faber polynomials, this article introduces and studies two new subclasses of bi-close-to-convex and quasi-close-to-convex functions associated with Janowski functions. By using the Faber polynomial expansion method, it determines the general coefficient bounds for the functions belonging to these classes. It also finds initial coefficients of bi-close-to-convex and bi-quasi-convex functions by using Janowski functions. Some known consequences of the main results are also highlighted.
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24

Murota, Kazuo, et Akiyoshi Shioura. « Quasi M-convex and L-convex functions—quasiconvexity in discrete optimization ». Discrete Applied Mathematics 131, no 2 (septembre 2003) : 467–94. http://dx.doi.org/10.1016/s0166-218x(02)00468-7.

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25

Rashid, Saima, Saima Parveen, Hijaz Ahmad et Yu-Ming Chu. « New quantum integral inequalities for some new classes of generalized ψ-convex functions and their scope in physical systems ». Open Physics 19, no 1 (1 janvier 2021) : 35–50. http://dx.doi.org/10.1515/phys-2021-0001.

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Abstract In the present study, two new classes of convex functions are established with the aid of Raina’s function, which is known as the ψ-s-convex and ψ-quasi-convex functions. As a result, some refinements of the Hermite–Hadamard ( {\mathcal{ {\mathcal H} {\mathcal H} }} )-type inequalities regarding our proposed technique are derived via generalized ψ-quasi-convex and generalized ψ-s-convex functions. Considering an identity, several new inequalities connected to the {\mathcal{ {\mathcal H} {\mathcal H} }} type for twice differentiable functions for the aforesaid classes are derived. The consequences elaborated here, being very broad, are figured out to be dedicated to recapturing some known results. Appropriate links of the numerous outcomes apprehended here with those connecting comparatively with classical quasi-convex functions are also specified. Finally, the proposed study also allows the description of a process analogous to the initial and final condition description used by quantum mechanics and special relativity theory.
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26

Sezer, Sevda, et Zeynep Eken. « The Hermite-Hadamard type inequalities for quasi $ p $-convex functions ». AIMS Mathematics 8, no 5 (2023) : 10435–52. http://dx.doi.org/10.3934/math.2023529.

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<abstract><p>In this paper, the Hermite-Hadamard inequality and its generalization for quasi $ p $-convex functions are provided. Also several new inequalities are established for the functions whose first derivative in absolute value is quasi $ p $-convex, which states some bounds for sides of the Hermite-Hadamard inequalities. In the context of the applications of results, we presented some relations involving special means and some inequalities for special functions including digamma function and Fresnel integral for sinus. In addiditon, an upper bound for error in numerical integration of quasi p-convex functions via composite trapezoid rule is given.</p></abstract>
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27

Mahmood, Shahid, Janusz Sokół, Hari Srivastava et Sarfraz Malik. « Some Reciprocal Classes of Close-to-Convex and Quasi-Convex Analytic Functions ». Mathematics 7, no 4 (27 mars 2019) : 309. http://dx.doi.org/10.3390/math7040309.

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The present paper comprises the study of certain functions which are analytic and defined in terms of reciprocal function. The reciprocal classes of close-to-convex functions and quasi-convex functions are defined and studied. Various interesting properties, such as sufficiency criteria, coefficient estimates, distortion results, and a few others, are investigated for these newly defined sub-classes.
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28

Beer, Gerald. « Quasi-concave functions and convex convergence to infinity ». Bulletin of the Australian Mathematical Society 60, no 1 (août 1999) : 81–94. http://dx.doi.org/10.1017/s0004972700033359.

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By a convex mode of convergence to infinity 〈Ck〉, we mean a sequence of nonempty closed convex subsets of a normed linear space X such that for each k, Ck+1 ⊆ int Ck and and a sequence 〈xn〉 is X is declared convergent to infinity with respect to 〈Ck〉 provided each Ck contains xn eventually. Positive convergence to infinity with respect to a pointed cone with nonempty interior as well as convergence to infinity in a fixed direction fit within this framework. In this paper we study the representation of convex modes of convergence to infinity by quasi-concave functions and associated remetrizations of the space.
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29

Ferreira, Orizon Pereira, Sándor Zoltán Németh et Lianghai Xiao. « On the Spherical Quasi-convexity of Quadratic Functions on Spherically Subdual Convex Sets ». Journal of Optimization Theory and Applications 187, no 1 (1 septembre 2020) : 1–21. http://dx.doi.org/10.1007/s10957-020-01741-7.

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Abstract In this paper, the spherical quasi-convexity of quadratic functions on spherically subdual convex sets is studied. Sufficient conditions for spherical quasi-convexity on spherically subdual convex sets are presented. A partial characterization of spherical quasi-convexity on spherical Lorentz sets is given, and some examples are provided.
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30

Adamek, Miroslaw. « Quasi-arithmetic F-convex functions and their characterization ». Journal of Nonlinear Sciences and Applications 12, no 11 (29 juin 2019) : 740–44. http://dx.doi.org/10.22436/jnsa.012.11.05.

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31

Lahrech, S., A. Jaddar, J. Hlal, A. Ouahab et A. Mbarki. « A note on the weakly quasi-convex functions ». International Mathematical Forum 2 (2007) : 1755–61. http://dx.doi.org/10.12988/imf.2007.07155.

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32

Rangel-Oliveros, Yenny, et Eze R. Nwaeze. « Simpson’s type inequalities for exponentially convex functions with applications ». Open Journal of Mathematical Analysis 5, no 2 (24 décembre 2021) : 84–94. http://dx.doi.org/10.30538/psrp-oma2021.0096.

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The Simpson's inequality cannot be applied to a function that is twice differentiable but not four times differentiable or have a bounded fourth derivative in the interval under consideration. Loads of articles are bound for twice differentiable convex functions but nothing, to the best of our knowledge, is known yet for twice differentiable exponentially convex and quasi-convex functions. In this paper, we aim to do justice to this query. For this, we prove several Simpson's type inequalities for exponentially convex and exponentially quasi-convex functions. Our findings refine, generalize and complement existing results in the literature. We regain previously known results by taking \(\alpha=0\). In addition, we also show the importance of our results by applying them to some special means of positive real numbers and to Simpson's quadrature rule. The obtained results can be extended for different kinds of convex functions.
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33

Li, Gang, Minghua Li et Yaohua Hu. « Stochastic quasi-subgradient method for stochastic quasi-convex feasibility problems ». Discrete & ; Continuous Dynamical Systems - S 15, no 4 (2022) : 713. http://dx.doi.org/10.3934/dcdss.2021127.

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<p style='text-indent:20px;'>The feasibility problem is at the core of the modeling of many problems in various disciplines of mathematics and physical sciences, and the quasi-convex function is widely applied in many fields such as economics, finance, and management science. In this paper, we consider the stochastic quasi-convex feasibility problem (SQFP), which is to find a common point of infinitely many sublevel sets of quasi-convex functions. Inspired by the idea of a stochastic index scheme, we propose a stochastic quasi-subgradient method to solve the SQFP, in which the quasi-subgradients of a random (and finite) index set of component quasi-convex functions at the current iterate are used to construct the descent direction at each iteration. Moreover, we introduce a notion of Hölder-type error bound property relative to the random control sequence for the SQFP, and use it to establish the global convergence theorem and convergence rate theory of the stochastic quasi-subgradient method. It is revealed in this paper that the stochastic quasi-subgradient method enjoys both advantages of low computational cost requirement and fast convergence feature.</p>
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34

Yildiz, Çetin, et M. Emin Özdemir. « On new Fejér type inequalities for $m-$convex and quasi convex functions ». Tbilisi Mathematical Journal 8, no 2 (décembre 2015) : 325–33. http://dx.doi.org/10.1515/tmj-2015-0030.

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35

Özdemir, M. E., Mustafa Gürbüz et Çetin Yildiz. « Inequalities for mappings whose second derivativesare quasi-convex or $h$-convex functions ». Miskolc Mathematical Notes 15, no 2 (2014) : 635. http://dx.doi.org/10.18514/mmn.2014.643.

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36

Sim, Young, Oh Kwon et Nak Cho. « Geometric Properties of Lommel Functions of the First Kind ». Symmetry 10, no 10 (1 octobre 2018) : 455. http://dx.doi.org/10.3390/sym10100455.

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In the present paper, we find sufficient conditions for starlikeness and convexity of normalized Lommel functions of the first kind using the admissible function methods. Additionally, we investigate some inclusion relationships for various classes associated with the Lommel functions. The functions belonging to these classes are related to the starlike functions, convex functions, close-to-convex functions and quasi-convex functions.
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37

Ramachandran, C., S. Annamalai et Basem Frasin. « The q-difference operator associated with the multivalent function bounded by conical sections ». Boletim da Sociedade Paranaense de Matemática 39, no 1 (1 janvier 2021) : 133–46. http://dx.doi.org/10.5269/bspm.32913.

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In this paper we obtain some inclusion relations of k - starlike functions, k - uniformly convex functions and quasi-convex functions. Furthermore, we obtain coe¢ cient bounds for some subclasses of fractional q-derivative multivalent functions together with generalized Ruscheweyh derivative.
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38

Sidky, Fawzan Ismail, Doaa Shokry Mohamed et Amina Ahmed Awad. « Some Inclusion Properties of Certain Subclasses of Analytic Functions Defined by Using the Tremblay Fractional Derivative Operator ». WSEAS TRANSACTIONS ON SYSTEMS 20 (28 juillet 2021) : 209–16. http://dx.doi.org/10.37394/23202.2021.20.23.

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In this paper, we introduce new subclasses of analytic and p-valent functions related to starlike, convex, close-to-convex, and quasi-convex functions by using a p-valent analog of the Tremblay fractional derivative operator. Inclusion relationships for these subclasses are established.
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39

Hu, Yaohua, Carisa Kwok Wai Yu et Xiaoqi Yang. « Incremental quasi-subgradient methods for minimizing the sum of quasi-convex functions ». Journal of Global Optimization 75, no 4 (12 août 2019) : 1003–28. http://dx.doi.org/10.1007/s10898-019-00818-6.

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40

Boonmee, Prakassawat, et Santi Tasena. « Quadratic transformation of multivariate aggregation functions ». Dependence Modeling 8, no 1 (5 octobre 2020) : 254–61. http://dx.doi.org/10.1515/demo-2020-0015.

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AbstractIn this work, we prove that quadratic transformations of aggregation functions must come from quadratic aggregation functions. We also show that this is different from quadratic transformations of (multivariate) semi-copulas and quasi-copulas. In the latter case, those two classes are actually the same and consists of convex combinations of the identity map and another fixed quadratic transformation. In other words, it is a convex set with two extreme points. This result is different from the bivariate case in which the two classes are different and both are convex with four extreme points.
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41

Vanitha, Lakshminarayanan, Chellakutti Ramachandran, Gangadharan Murugusundaramoorthy et Halit Orhan. « Coefficient inequalities for subclasses of analytic functions based on quasi-subordination and majorization related with sigmoid functions ». MATHEMATICA 64 (87), no 1 (15 avril 2022) : 139–48. http://dx.doi.org/10.24193/mathcluj.2022.1.15.

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42

Wu, Min-Chun, et Vladimir Itskov. « A topological approach to inferring the intrinsic dimension of convex sensing data ». Journal of Applied and Computational Topology 6, no 1 (11 novembre 2021) : 127–76. http://dx.doi.org/10.1007/s41468-021-00081-3.

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AbstractWe consider a common measurement paradigm, where an unknown subset of an affine space is measured by unknown continuous quasi-convex functions. Given the measurement data, can one determine the dimension of this space? In this paper, we develop a method for inferring the intrinsic dimension of the data from measurements by quasi-convex functions, under natural assumptions. The dimension inference problem depends only on discrete data of the ordering of the measured points of space, induced by the sensor functions. We construct a filtration of Dowker complexes, associated to measurements by quasi-convex functions. Topological features of these complexes are then used to infer the intrinsic dimension. We prove convergence theorems that guarantee obtaining the correct intrinsic dimension in the limit of large data, under natural assumptions. We also illustrate the usability of this method in simulations.
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43

Khachatryan, Rafik Agasievich. « ON SOME PROPERTIES OF QUASI CONVEX FUNCTIONS AND SETS ». Tambov University Reports. Series : Natural and Technical Sciences, no 124 (2018) : 824–37. http://dx.doi.org/10.20310/1810-0198-2018-23-124-824-837.

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The connection between quasi convexity and proximal smoothness (also known as low C^2 property) of functions is verified. For compact sets, it is proved that the properties of quasi convexity and proximal smoothness are equivalent. The Bouligand cones of tangent directions for the sets that are defined by convex functions are constructed.
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44

Awan, Muhammad Uzair, Muhammad Aslam Noor et Khalida Inayat Noor. « Two Dimensional Harmonic Quasi Convex Functions and Integral Inequalities ». Applied Mathematics & ; Information Sciences 12, no 6 (1 novembre 2018) : 1203–7. http://dx.doi.org/10.18576/amis/120615.

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45

ALTINTAŞ, Osman, et Öznur Özkan KILIÇ. « Coefficient estimates for a class containing quasi-convex functions ». TURKISH JOURNAL OF MATHEMATICS 42, no 5 (9 septembre 2018) : 2819–25. http://dx.doi.org/10.3906/mat-1805-90.

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Park, Jaekeun. « Ostrowski type inequalities for differentiable harmonically quasi-convex functions ». International Journal of Mathematical Analysis 8 (2014) : 1615–27. http://dx.doi.org/10.12988/ijma.2014.46173.

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Park, Jaekeun. « Some generalized inequalities for differentiable harmonically quasi-convex functions ». International Journal of Mathematical Analysis 8 (2014) : 1893–906. http://dx.doi.org/10.12988/ijma.2014.47218.

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Park, Jaekeun. « Some inequalities for twice differentiable harmonically quasi-convex functions ». International Journal of Mathematical Analysis 9 (2015) : 327–39. http://dx.doi.org/10.12988/ijma.2015.412395.

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Yong, Chow Li, Aini Janteng et Suzeini Abdul Halim. « Faber polynomial coefficient estimates for bi-quasi-convex functions ». International Journal of Mathematical Analysis 11 (2017) : 815–24. http://dx.doi.org/10.12988/ijma.2017.77102.

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Lai, H. C., et J. C. Liu. « Complex Fractional Programming Involving Generalized Quasi/Pseudo Convex Functions ». ZAMM 82, no 3 (mars 2002) : 159–66. http://dx.doi.org/10.1002/1521-4001(200203)82:3<159 ::aid-zamm159>3.0.co;2-5.

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