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Article Dans Une Revue Automatica Année : 2021

Sensor Delay-Compensated prescribed-Time Observer for LTI Systems

Drew Steeves
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Wilfrid Perruquetti
Miroslav Krstic
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Résumé

We present an observer for linear time-invariant (LTI) systems with measurement delay. Our design ensures that the observer error converges to zero within a prescribed terminal time. To achieve this, we employ time-varying output gains that approach infinity at the terminal time, which can be arbitrarily short but no shorter than the sensor delay time. We model the sensor delay as a transport partial differential equation (PDE) and build upon the cascade ODE-PDE setting while accounting for the infinite dimensionality of the sensor. To construct our time-varying gains, the observer design needs to be conducted in a particular system representation. For this reason, we employ a sequence of state transformations (and their inverses) mapping the original observer error model into (1) the observer form, (2) a sensor delay-compensated observer error form via backstepping, and (3) a particular diagonal form that is amenable to the selection of time-varying gains for prescribed-time stabilization. Our construction of the time-varying observer gains uses (a) generalized Laguerre polynomials, (b) elementary symmetric polynomials, and (c) polynomial-based Vandermonde matrices. A simulation illustrates the results.
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Dates et versions

hal-03367464 , version 1 (06-10-2021)

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  • HAL Id : hal-03367464 , version 1

Citer

Nicolás Espitia, Drew Steeves, Wilfrid Perruquetti, Miroslav Krstic. Sensor Delay-Compensated prescribed-Time Observer for LTI Systems. Automatica, 2021, 135. ⟨hal-03367464⟩
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