On a set-valued functional integral equation of Volterra-Stieltjes type

Abstract: In this paper, we study the existence of continuous solutions of a set-valued functional integral equation for the Volterra-Stieltjes type. The asymptotic stability of the solutions will be studied. The continuous dependence of the solution on the set of selections of the set-valued function will be proven. As an application, we study the existence of solutions of an initial value problem of arbitrary (fractional) order differential inclusion.

“…with integral bounday conditions (4.2)-(4.3). Recently, the problem of such a type was intensively investigated in [19].…”

“…Fractional calculus is a potent tool in applied mathematics, offering a way to analyze a wide range of problems in various scientific and technical fields. Fractional derivatives have yielded significant results in [5,[18][19][20][21][22][23]. The study of partial fractional differential equations, as well as ordinary differential equations, has made substantial progress in recent years.…”

An outlook on stability of implicit θ -Caputo fractional differential equation with application involving the Riemann-Stieltjes type

“…with integral bounday conditions (4.2)-(4.3). Recently, the problem of such a type was intensively investigated in [19].…”

“…Fractional calculus is a potent tool in applied mathematics, offering a way to analyze a wide range of problems in various scientific and technical fields. Fractional derivatives have yielded significant results in [5,[18][19][20][21][22][23]. The study of partial fractional differential equations, as well as ordinary differential equations, has made substantial progress in recent years.…”

An outlook on stability of implicit θ -Caputo fractional differential equation with application involving the Riemann-Stieltjes type

“…where H(A, B) is the Hausdorff metric between the two subsets A, B ∈ I × E (see [13]) Remark 3 From this assumptions we can deduce that there exists a function…”

“…The models of the arbitrary (fractional-orders) differential and integral equations have many applications ( see [1], [3]- [13] and [15]- [16]). Here, we are concerning with the nonlinear differential inclusion dx dt ∈ F 1 (t, x(t), I γ f 2 (t, x(t))), γ ∈ (0, 1) t ∈ (0, T )…”

A Nonlocal (Two-point with Parameters) Boundary Value Problem of Differential Inclusion

“…Further, the continuous dependence of a unique solution on delay functions will be considered. Many authors use fixed point theorems to prove the existence of the solution to nonlinear integral equations, see [9][10][11]13].…”

Results on solvability of nonlinear quadratic integral equations of fractional orders in Banach algebra