Abstract
In this paper, a novel sub-optimal controller is proposed for a class of non-smooth fractional-order systems. In the proposed approach, a new generalized Bernstein expansion is obtained for the original non-smooth function. This new generalized expansion is used to approximate and extend Caputo fractional-order derivative for non-smooth functions. Finally, by using mentioned concepts, a nonlinear optimal control numerical method is generalized to solve the sub-optimal control problem of a class of non-smooth fractional-order nonlinear systems. Two nonlinear fractional-order dynamic systems (smooth and non-smooth) and Chua fractional-order system (non-smooth chaotic system) are studied to show the feasibility and performance of the proposed approach. The advantage of the proposed approach being able to deal with non-smooth functions can be mentioned. Some examples with exact solutions are selected for the proposed approach. It is observed that the approximate solutions obtained from the proposed approach are very close to the exact solution compared with existing methods.
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