Fundamental Matrix, Integral Representation and Stability Analysis of the Solutions of Neutral Fractional Systems with Derivatives in the Riemann—Liouville Sense

Abstract: The paper studies a class of nonlinear disturbed neutral linear fractional systems with derivatives in the the Riemann–Liouville sense and distributed delays. First, it is proved that the initial problem for these systems with discontinuous initial functions under some natural assumptions possesses a unique solution. The assumptions used for the proof are similar to those used in the case of systems with first-order derivatives. Then, with the obtained result, we derive the existence and uniqueness of a fundam… Show more

“…Recently, the study of UH-type stability has still been very popular, especially for fractional-order differential systems. There are many papers dealing with UH-type stability of nonlinear fractional differential systems (see [21,22,25,[29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44][45], among others). However, the UH-type stability of Hadamard fractional differential coupling systems is rarely studied because the study of the former is much more difficult than that of a single differential equation.…”

Stability and Numerical Simulation of a Nonlinear Hadamard Fractional Coupling Laplacian System with Symmetric Periodic Boundary Conditions

“…Recently, the study of UH-type stability has still been very popular, especially for fractional-order differential systems. There are many papers dealing with UH-type stability of nonlinear fractional differential systems (see [21,22,25,[29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44][45], among others). However, the UH-type stability of Hadamard fractional differential coupling systems is rarely studied because the study of the former is much more difficult than that of a single differential equation.…”

Stability and Numerical Simulation of a Nonlinear Hadamard Fractional Coupling Laplacian System with Symmetric Periodic Boundary Conditions