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This paper proposes a new method for sliding mode control of systems with mismatched uncertainties. The proposed method employs a multiple sliding surface (MSS) approach combined with inertial delay control (IDC) for estimating unmatched disturbances. It has the advantage of tackling constant as well as time-variant and state dependent(More)
This paper proposes the design and implementation of model following sliding mode control strategy based on an inertial delay observer. This observer estimates the states as well as the uncertainties and disturbances in an integrated manner. It is shown that when modeling uncertainties and disturbances are present in the system, it gives better results(More)
This paper proposes a new method for decentralized sliding mode control of interconnected uncertain systems that can ensure local sliding without using information about interconnections or interconnecting states. The control is based on a disturbance observer and no knowledge of bounds of uncertainties and bounds of interconnections is assumed. The(More)
In this paper, we propose a novel sliding mode control for systems that do not satisfy the so called matching conditions. The proposed control is based on the backstepping technique augmented by an inertial delay control. The stability of the overall system is proved using the Lyapunov method. The effective of the method is illustrated by simulation.
In this paper, a new decentralized sliding mode control based on Inertial Delay Control (IDC) is proposed for a class of perturbed nonlinear large scale systems with variable time delay in interconnections. IDC is used to estimate the nonlinear perturbations, external disturbances and interconnection effects with time varying delay in interconnections. The(More)