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This paper studies nonlinear systems control when unmatched perturbations are present. A new control scheme, based on block control and quasi-continuous HOSM techniques, is proposed. The proposed method assures exact finite time tracking, for the desired signal, regardless of unmatched perturbations. The proposed control design is tested through a simulation example.
In this paper, robust stabilizing controllers for the synchronous generator speed, series power flows, voltage magnitude and DC link voltage are designed for a power system with FACTS device (UPFC). To design these controllers, a combined super-twisting sliding mode (SM) and block control (BC) technique is implemented. The block control approach is used to design linear and nonlinear sliding manifolds...
The control of nonlinear systems subject to unmatched perturbations is studied. A new design algorithm is proposed in this paper. This control scheme is based on the block control and quasi-continuous HOSM techniques. The proposed method provides for the finite time exact tracking of the desired signal in spite of unmatched perturbations. The proposed control design is tested in a simulation example.
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