Masoud Shafiee scite author profile

In this paper, the unknown input observer (UIO) design for singular delayed linear parameter varying (LPV) systems is considered regarding its application to actuator fault detection and isolation. The design procedure assumes that the LPV system is represented in the polytopic framework. Existence and convergence conditions for the UIO are established. The design procedure is formulated by means of linear matrix inequalities (LMIs). Actuator fault detection and isolation is based on using the UIO approach for designing a residual generator that is completely decoupled from unknown inputs and exclusively sensitive to faults. Fault isolation is addressed considering two different strategies: dedicated and generalised bank of observers' schemes. The applicability of these two schemes for the fault isolation is discussed. An open flow canal system is considered as a case study to illustrate the performance and usefulness of the proposed fault detection and isolation method in different fault scenarios.Postprint (author's final draft

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Dynamic average consensus via nonlinear protocols

Nosrati

Shafiee

Menhaj

2012

Automatica

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Dynamic analysis of fractional-order singular Holling type-II predator–prey system

Nosrati

Shafiee

2017

Applied Mathematics and Computation

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Traumatic optic neuropathy treatment trial (TONTT): open label, phase 3, multicenter, semi-experimental trial

Kashkouli

Yousefi

Nojomi

et al. 2017

Graefes Arch Clin Exp Ophthalmol

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On the stability issues of switched singular time‐delay systems with slow switching based on average dwell‐time

Zamani

Shafiee

2012

Intl J Robust & Nonlinear

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SUMMARYThe issue of exponential stability analysis of continuous‐time switched singular systems consisting of a family of stable and unstable subsystems with time‐varying delay is investigated in this paper. It is very difficult to analyze the stability of such systems because of the existence of time‐delay and unstable subsystems. In this regard, on the basis of the free‐weighting matrix approach, by constructing the new Lyapunov‐like Krasovskii functional, and using the average dwell‐time approach, delay‐dependent sufficient conditions are derived and formulated in terms of LMIs to check the exponential stability of such systems. This paper also highlights the relationship between the average dwell‐time of the switched singular time‐delay system, its stability, exponential convergence rate of differential states, and algebraic states. Finally, a numerical example is given to confirm the analytical results and illustrate the effectiveness of the proposed strategy. Copyright © 2012 John Wiley & Sons, Ltd.

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Solar activity forecast: Spectral analysis and neurofuzzy prediction

Gholipour

Lucas

Araabi

et al. 2005

Journal of Atmospheric and Solar-Terrestrial Physics

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Stability analysis of hybrid switched nonlinear singular time-delay systems with stable and unstable subsystems

Zamani

Shafiee

Ibeas

2013

International Journal of Systems Science

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Masoud Shafiee

Kalman filtering for discrete‐time linear fractional‐order singular systems

UIO design for singular delayed LPV systems with application to actuator fault detection and isolation

Dynamic average consensus via nonlinear protocols

Dynamic analysis of fractional-order singular Holling type-II predator–prey system

Traumatic optic neuropathy treatment trial (TONTT): open label, phase 3, multicenter, semi-experimental trial

On the stability issues of switched singular time‐delay systems with slow switching based on average dwell‐time

Solar activity forecast: Spectral analysis and neurofuzzy prediction

Stability analysis of hybrid switched nonlinear singular time-delay systems with stable and unstable subsystems

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