Abstract
In this paper, using the quantum derivatives and quantum integrals, we prove some new quantum Ostrowski’s type inequalities for pre-invex functions. Furthermore, in the special cases of newly developed inequalities, we obtain different new and existing Ostrowski’s type inequalities.
( Communicated by Tomasz Natkaniec )
References
[1] Alomari, M.—Darus, M.—Dragomir, S. S.—Cerone, P: Ostrowski type inequalities for functions whose derivatives are s-convex in the second sense, Appl. Math. Lett. 23 (2010), 1071–1076.10.1016/j.aml.2010.04.038Search in Google Scholar
[2] Ali, M. A.—Budak, H.—Zhang Z.—Yildirim, H.: Some new Simpson’s type inequalities for co-ordinated convex functions in quantum calculus, Math. Methods Appl. Sci. 44 (2021), 4515–4540.10.22541/au.159440598.88087022Search in Google Scholar
[3] Ali, M. A.—Budak, H.—Abbas, M.—Chu, Y.: Quantum Hermite–Hadamard-type inequalities for functions with convex absolute values of second qκ2-derivatives, Adv. Differ. Equ. 2021 (2021), Art. 7.Search in Google Scholar
[4] Ali, M. A.—Abbas M.—Budak, H.—Agarwal, P.—Murtaza G.—Chu, Y.: New quantum boundaries for quantum Simpson’s and quantum Newton’s type inequalities for preinvex functions, Adv. Differ. Equ. 2021 (2021), Art. 64.10.1186/s13662-021-03226-xSearch in Google Scholar
[5] Ali, M. A.—Chu, Y.—Budak, H.—Akkurt, A.—Yildirim, H.—Zahid, M. A.: Quantum variant of Montgomery identity and Ostrowski-type inequalities for the mappings of two variables, Adv. Differ. Equ. 2021 (2021), Art. 25.10.1186/s13662-020-03195-7Search in Google Scholar
[6] Ali, M. A.—Alp, N.—Budak, H.—Chu, Y.—Zhang, Z.: On some new quantum midpoint type inequalities for twice quantum differentiable convex functions, Open Math. 19 (2021), 427–439.10.1515/math-2021-0015Search in Google Scholar
[7] Ali, M. A.—Budak, H.—Akkurt, A.—Chu, Y.: Quantum Ostrowski type inequalities for twice quantum differentiable functions in quantum calculus, Open Math. 19 (2021), 440–449.10.1515/math-2021-0020Search in Google Scholar
[8] Ali, M. A.—Abbas, M.—Sehar, M.—Murtaza, G.: Simpson’s and Newton’s type quantum integral inequalities for preinvex functions, Korean J. Math. 29 (2021), 193–203.10.22541/au.160034226.60649830Search in Google Scholar
[9] Alp, N.—Sarikaya, M. Z.—Kunt, M.—İşcan, İ.: q-Hermite Hadamard inequalities and quantum estimates for midpoint type inequalities via convex and quasi-convex functions, J. King Saud Univ. Sci. 30 (2018), 193–203.10.1016/j.jksus.2016.09.007Search in Google Scholar
[10] Alp, N.—Sarikaya, M. Z.: Hermite Hadamard’s type inequalities for co-ordinated convex functions on quantum integral, Appl. Math. E-Notes 20 (2020), 341–356.Search in Google Scholar
[11] Al-Salam, W.: Some fractional q-integrals and q-derivatives, Proc. Edinb. Math. Soc. 15 (1966), 135–140.10.1017/S0013091500011469Search in Google Scholar
[12] Bermudo, S.—Kórus, P.—Nápoles Valdés, J. E.: On q-Hermite-Hadamard inequalities for general convex functions, Acta Math. Hungar. 162 (2020), 364–374.10.1007/s10474-020-01025-6Search in Google Scholar
[13] Budak, H.: Some trapezoid and midpoint type inequalities for newly defined quantum integrals, Proyecciones 40 (2021), 199–215.10.22199/issn.0717-6279-2021-01-0013Search in Google Scholar
[14] Budak, H.—Ali, M. A.—Tarhanaci, M: Some new quantum Hermite–Hadamard-like inequalities for coordinated convex functions, J. Optim. Theory Appl. 186 (2020), 899–910.10.1007/s10957-020-01726-6Search in Google Scholar
[15] Budak, H.—Erden, S.—Ali, M. A.: Simpson and Newton type inequalities for convex functions via newly defined quantum integrals, Math. Meth. Appl. Sci. 44 (2020), 378–390.10.1002/mma.6742Search in Google Scholar
[16] Budak, H.—Ali, M. A.—Alp, N.—Chu, Y. M: Quantum Ostrowski type integral inequalities, J. Math. Inequal. (2021), in press.Search in Google Scholar
[17] Cerone, P.—Dragomir, S. S.: Ostrowski type inequalities for functions whose derivatives satisfy certain convexity assumptions, Demonstr. Math. 37 (2004), 299–308.10.1515/dema-2004-0208Search in Google Scholar
[18] Du, T.-S.—Liao, J.-G.—Li., Y.-J.: Properties and integral inequalities of Hadamard–Simpson type for the generalized (s, m)-preinvex functions, J. Nonlinear Sci. Appl. 9 (2016), 3112–3126.10.22436/jnsa.009.05.102Search in Google Scholar
[19] Du, T. S.—Awan, M. U.—Kashuri, A.—Zhao, S.: Some k-fractional extensions of the trapezium inequalities through generalized relative semi-(m, h)-preinvexity, Appl. Anal. 100 (2021), 642–662.10.1080/00036811.2019.1616083Search in Google Scholar
[20] Ernst, T. A.: The History of q-Calculus and New Method, Sweden: Department of Mathematics, Uppsala University, 2000.Search in Google Scholar
[21] Ernst, T. A.: Comprehensive Treatment of q-Calculus, Springer, Basel, 2012.10.1007/978-3-0348-0431-8Search in Google Scholar
[22] Jackson, F. H.: On a q-definite integrals, Quart. J. Pure Appl. Math. 41 (1910), 193–203.Search in Google Scholar
[23] Jhanthanam, S.—Tariboon, J.—Ntouyas, S. K.—Nonlaopon, K.: On q-Hermite–Hadamard inequalities for differentiable convex functions, Mathematics 7 (2019), Art. No. 632.10.3390/math7070632Search in Google Scholar
[24] Kac, V.—Cheung, P.: Quantum Calculus, Springer, New York, 2002.10.1007/978-1-4613-0071-7Search in Google Scholar
[25] Liao, J. G.—Wu, S.—Du, T.-S.: The Sugeno integral with respect to α-preinvex functions, Fuzzy Sets and Systems 379 (2020), 102–114.10.1016/j.fss.2018.11.008Search in Google Scholar
[26] Khan, M. A.—Mohammad, N.—Nwaeze E. R.—Chu. Y.-M.: Quantum Hermite–Hadamard inequality by means of a Green function, Adv. Differ. Equ. 2020 (2020), Art. No. 99.Search in Google Scholar
[27] Matloka, M.: Inequalities for h-preinvex functions, Appl. Math. Comput. 234 (2014), 52–57.10.1016/j.amc.2014.02.030Search in Google Scholar
[28] Noor, M. A.: Hadamard integral inequalities for product of two preinvex function, Nonl. Anal. Forum 14 (2009), 167–173.Search in Google Scholar
[29] Noor, M. A.—Noor, K. I.—Awan, M. U.—LI, J.: On Hermite–Hadamard inequalities for h-preinvex functions, Filomat 28(2014), 1463–1474.10.2298/FIL1407463NSearch in Google Scholar
[30] Noor, M. A.—Noor, K. I.—Awan, M. U.: Some quantum estimates for Hermite-Hadamard inequalities, Appl. Math. Comput. 251 (2015), 675–679.10.1016/j.amc.2014.11.090Search in Google Scholar
[31] Noor, M. A.—Noor, K. I.—Awan, M. U.: Some quantum integral inequalities via preinvex functions, Appl. Math. Comput. 269 (2015), 242–251.10.1016/j.amc.2015.07.078Search in Google Scholar
[32] Nwaeze, E. R.—Tameru, A. M.: New parameterized quantum integral inequalities via η-quasiconvexity, Adv. Differ. Equ. 2019 (2019), Art. No. 425.10.1186/s13662-019-2358-zSearch in Google Scholar
[33] Ostrowski, A.: Über die Absolutabweichung einer differentiierbaren Funktion von ihrem Integralmittelwert, Comment. Math. Helv. 10 (1938), 226–227.10.1007/978-3-0348-9342-8_15Search in Google Scholar
[34] Tariboon, J.—Ntouyas, S. K.: Quantum calculus on finite intervals and applications to impulsive difference equations, Adv. Differ. Equ. 2013 (2013), Art. No. 282.10.1186/1687-1847-2013-282Search in Google Scholar
[35] Weir, T.—Jeyakumar, V.: A class of nonconvex functions and mathematical programming, Bull. Austral. Math. Soc. 38 (1988), 177–189.10.1017/S0004972700027441Search in Google Scholar
[36] Weir, T.—Mond, B.: Pre-invex functions in multiple objective optimization, J. Math. Anal. Appl. 136 (1988), 29–38.10.1016/0022-247X(88)90113-8Search in Google Scholar
[37] Vivas-Cortez, M.—Ali, M. A.—Kashuri, A.—Sial, I. B.—Zhang, Z.: Some new Newton’s type integral inequalities for co-ordinated convex functions in quantum calculus, Symmetry 12 (2020), Art. No. 1476.10.3390/sym12091476Search in Google Scholar
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