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Main Authors: Ali, Bahia Hadj, Adil, Ania, Bedouhene, Fazia
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.18471
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author Ali, Bahia Hadj
Adil, Ania
Bedouhene, Fazia
author_facet Ali, Bahia Hadj
Adil, Ania
Bedouhene, Fazia
contents In this research, we apply the observer approach introduced by Djennoune et al. \cite{djennoune2019modulating} to estimate water levels in a coupled tanks system. Central to this approach is the use of a remarkable modulating function-based transformation $T_n $, which employs a time/output-dependent coordinate transformation. This transformation converts the original system into a form where the effects of initial conditions are effectively nullified. The primary advantage of utilizing the $T_n $ transformation is its ability to achieve instantaneous convergence, ensuring both rapid and accurate state estimation. The observer's finite-time convergence is assured, with the estimation error remaining bounded within a finite period. Numerical simulations further validate the effectiveness of this method for the Coupled Tanks system, demonstrating the robustness of the $T_n $ transformation in practical applications.
format Preprint
id arxiv_https___arxiv_org_abs_2412_18471
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Modulating function-based fast convergent observer for the Coupled Tanks system
Ali, Bahia Hadj
Adil, Ania
Bedouhene, Fazia
Dynamical Systems
In this research, we apply the observer approach introduced by Djennoune et al. \cite{djennoune2019modulating} to estimate water levels in a coupled tanks system. Central to this approach is the use of a remarkable modulating function-based transformation $T_n $, which employs a time/output-dependent coordinate transformation. This transformation converts the original system into a form where the effects of initial conditions are effectively nullified. The primary advantage of utilizing the $T_n $ transformation is its ability to achieve instantaneous convergence, ensuring both rapid and accurate state estimation. The observer's finite-time convergence is assured, with the estimation error remaining bounded within a finite period. Numerical simulations further validate the effectiveness of this method for the Coupled Tanks system, demonstrating the robustness of the $T_n $ transformation in practical applications.
title Modulating function-based fast convergent observer for the Coupled Tanks system
topic Dynamical Systems
url https://arxiv.org/abs/2412.18471