AIMS Mathematics (Aug 2024)

Construction of new fractional inequalities via generalized n-fractional polynomial s-type convexity

  • Serap Özcan,
  • Saad Ihsan Butt,
  • Sanja Tipurić-Spužević,
  • Bandar Bin Mohsin

DOI
https://doi.org/10.3934/math.20241163
Journal volume & issue
Vol. 9, no. 9
pp. 23924 – 23944

Abstract

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This paper focuses on introducing and investigating the class of generalized $ n $-fractional polynomial $ s $-type convex functions within the framework of fractional calculus. Relationships between the novel class of functions and other kinds of convex functions are given. New integral inequalities of Hermite-Hadamard and Ostrowski-type are established for our novel generalized class of convex functions. Using some identities and fractional operators, new refinements of Ostrowski-type inequalities are presented for generalized $ n $-fractional polynomial $ s $-type convex functions. Some special cases of the newly obtained results are discussed. It has been presented that, under some certain conditions, the class of generalized $ n $-fractional polynomial $ s $-type convex functions reduces to a novel class of convex functions. It is interesting that, our results for particular cases recaptures the Riemann-Liouville fractional integral inequalities and quadrature rules. By extending these particular types of inequalities, the objective is to unveil fresh mathematical perspectives, attributes, and connections that can enhance the evolution of more resilient mathematical methodologies. This study aids in the progression of mathematical instruments across diverse scientific fields.

Keywords