【 摘 要 】

In 2015, Abdeljawad [1] has put an open problem, which is stated as: Is it hard to fractionalize the conformable fractional calculus, either by iterating the conformable fractional derivative (Grunwald-Letnikov approach) or by iterating the conformable fractional integral of order 0 < alpha <= 1 (Riemann approach)?. Notice that when alpha = 0 we obtain Hadamard type fractional integrals. In this article we claim that yes it is possible to iterate the conformable fractional integral of order 0 < alpha <= 1 (Riemann approach), such that when alpha = 0 we obtain Hadamard fractional integrals. First of all we prove Cauchy integral formula for repeated conformable fractional integral and proceed to define new generalized conformable fractional integral and derivative operators (left and right sided). We also prove some basic properties which are satisfied by these operators. These operators (integral and derivative) are the generalizations of Katugampola operators, RiemannLiouville fractional operators, Hadamard fractional operators. We apply our results to a simple function. Also we consider a nonlinear fractional differential equation using this new formulation. We show that this equation is equivalent to a Volterra integral equation and demonstrate the existence and uniqueness of solution to the nonlinear problem. At the end, we give conclusion and point out an open problem. (C) 2018 Elsevier B.V. All rights reserved.

【 授权许可】

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10_1016_j_cam_2018_07_018.pdf	454KB	PDF	download