Content area
In this work, we classify the extensions of Hermite–Hadamard(H–H)–Fejer-type inequalities for the fractional operators involving nonlinear kernel. By utilizing these inequalities, we develop many kinds of fractional integral (FI) inequalities. By considering the limiting cases of our main results, we attain the inequalities that already exist in the literature. In our work, we calculate the bounds of well-known fractional problems involving extended fractional operators. As implementations of the proved results, we calculate the midpoint-type inequalities. In the last section as the application of our defined operator, we present a generalized Abel integral equation and compute its solution. Also, we define the nonlinear form of a weakly singular Volterra-type integral equation and investigate its solution. These results might be useful in the investigation of the uniqueness of mathematical models and applied problems.
Details
1 East China Normal University, School of Mathematical Sciences and Shanghai Key Laboratory of PMMP, Shanghai, People’s Republic of China (GRID:grid.22069.3f) (ISNI:0000 0004 0369 6365)
2 University of Sargodha, Muhammad Samraiz-Department of Mathematics, Sargodha, Pakistan (GRID:grid.412782.a) (ISNI:0000 0004 0609 4693)