Some researchers believe fractional differential operators should not have a non-singular kernel, while others strongly believe that due to the complexity of nature, fractional differential operators can have either singular or non-singular kernels.This contradiction in thoughts has led to the publication of a few papers that are against differential operators with non-singular kernels, causing some negative impacts.Thus, publishers and some Editors-in-Chief are concerned about the future Wired Mouse of fractional calculus, which has generally brought confusion among the vibrant and innovative young researchers who desire to apply fractional calculus within their respective fields.
Thus, the present work aims to develop a model based on a stochastic process that could be utilized to portray the effect of arbitrary-order derivatives.A nonlinear perturbation is used to study the proposed stochastic model with the help of white noises.The required condition(s) for the existence of an ergodic stationary distribution is obtained via Lyapunov functional theory.
The finding of the study indicated that the proposed noises have a remarkable impact on the dynamics of the system.To reduce the spread of a disease, we imposed some control measures on the stochastic model, and the optimal system was achieved.The models both with and without control were coded LED Charge Wire in MATLAB, and at the conclusion of the research, numerical solutions are provided.