A tunable multivariable nonlinear robust observer for biological systems |
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Authors: | Alcaraz-González Víctor Salazar-Peña Rodolfo González-Alvarez Víctor Gouzé Jean-Luc Steyer Jean-Philippe |
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Affiliation: | Departamento de Ingeniería Química, Universidad de Guadalajara-CUCEI, Blvd. Marcelino García Barragán 1451, Guadalajara, Jalisco, 44430, México. victor@ccip.udg.mx |
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Abstract: | This paper presents a robust nonlinear asymptotic observer with adjustable convergence rate with a great potential of applicability for biological systems in which the main state variables are difficult and expensive to measure or such measurements do not exist. This observer scheme is based on the classical asymptotic observer, which is modified to allow the tuning of the convergence rate. It is shown that the proposed observer provides fast and satisfactory estimates when facing load disturbances, system failures and parameter uncertainty while maintaining the excellent robustness and stability properties of the classical asymptotic observer. The implementation of the tunable observer is carried out by numerical simulations of a mathematical model of an anaerobic digestion process used for wastewater treatment. The key results are examined and further developed. |
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Keywords: | Tuning observers Nonlinear systems Robustness Stability Anaerobic digestion Observateurs réglables Systèmes non linéaires Robustesse Stabilité Digestion anaérobie |
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