Fractional dynamic sliding mode control for non-identical uncertain fractional chaotic systems Online publication date: Wed, 28-Apr-2021
by Sara Gholipour; Javad Kazemitabar; Mobin Alizadeh; Sara Minagar
International Journal of Systems, Control and Communications (IJSCC), Vol. 12, No. 2, 2021
Abstract: Using the fractional calculus a novel dynamic sliding mode control is proposed for control and synchronisation between different fractional chaotic systems with matched disturbances. Lyapunov stability theory has guaranteed the stability of the closed-loop system. The synchronisation and control of two chaotic Lorenz-Stenflo (LS) and Qi systems in master-slave configuration are realised by the presented controller. Furthermore, the obtained chaotic fractional LS and Qi motions are sorted out for qualitative and quantitative study using Lyapunov exponents and bifurcation diagrams with respect to fractional-order of the systems. In the fractional-order LS and Qi systems chaos can exist with order as low as 3.76 and 3.48, respectively. The control method is presented for eliminating chattering disadvantage of sliding mode control in a finite time.
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