B. Yousfi scite author profile

This paper deals with the design of interval observers for singularly perturbed linear systems. The fullorder system is firstly decoupled into slow and fast subsystems. Then, using the cooperativity theory, an interval observer is designed for the slow and fast subsystems assuming that the measurement noise and the disturbances are bounded and the singular perturbed parameter is uncertain. This decoupling leads to two observers that estimate the lower and upper bounds for the feasible state domain. A numerical example shows the efficiency of the proposed technique.

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Interval observers design for singularly perturbed systems

Yousfi

Raïssi²,

Amairi

et al. 2014

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This paper deals with interval observers design for two-time singularly perturbed systems. The full-order system is firstly decoupled into slow and fast subsystems. Then, using the cooperativity theory, an interval observer is designed for the slow subsystem assuming that the singular perturbed parameter is uncertain. This decoupling leads to two observers that estimate the lower and upper bounds for state values. A numerical example shows the efficiency of the proposed technique.

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A polynomial-based approach to design controllers of non-minimum phase nonlinear systems

Yousfi

Charfeddine

Jouili

et al. 2015

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Set-membership methodology for model-based systems prognosis

et al. 2015

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B. Yousfi

Set-membership methodology for model-based prognosis

Robust state estimation for singularly perturbed systems

Interval observers design for singularly perturbed systems

A polynomial-based approach to design controllers of non-minimum phase nonlinear systems

Set-membership methodology for model-based systems prognosis

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