An algebraic stability test for fractional order time delay systems

Abstract: In this study, an algebraic stability test procedure is presented for fractional order time delay systems. This method is based on the principle of eliminating time delay. The stability test of fractional order systems cannot be examined directly using classical methods such as Routh-Hurwitz, because such systems do not have analytical solutions. When a system contains the square roots of s, it is seen that there is a double value function of s. In this study, a stability test procedure is applied to systems i… Show more

“…These equations appear in various sciences and engineering and have many applications. Özyetkin and Baleanu 22 presented an algebraic stability test procedure for fractional order time delay systems. Their procedure is based on the principle eliminating time delay.…”

On the convergence of Jacobi‐Gauss collocation method for linear fractional delay differential equations

“…These equations appear in various sciences and engineering and have many applications. Özyetkin and Baleanu 22 presented an algebraic stability test procedure for fractional order time delay systems. Their procedure is based on the principle eliminating time delay.…”

On the convergence of Jacobi‐Gauss collocation method for linear fractional delay differential equations

“…Fractional differentiation meaning is a generalization of classical differential equations of integer order. Fractional order derivatives and integrals have been applied in problems with different practical potential applications [1–15]. This noninteger concept started from Leibniz and L'hospitals letter with each other and continues with the nonlocal and nonsingular version of fractional derivatives [1, 3–4, 16–20].…”

New analysis and application of fractional order Schrödinger equation using with Atangana–Batogna numerical scheme

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