In this work, a systematic approach based on the geometric observer is proposed to design a model-based soft sensor, which allows the estimation of quality indexes in a bioreactor. The study is focused on the structure design problem where the set of innovated states has to be chosen. On the basis of robust exponential estimability arguments, it is found that it is possible to distinguish all the unmeasured states if temperature and dissolved oxygen concentration measurements are combined with substrate concentrations. The proposed estimator structure is then validated through numerical simulation considering two different measurement processor algorithms: the geometric observer and the extended Kalman filter.

A geometric observer-assisted approach to tailor state estimation in a bioreactor for ethanol production

Lisci S.
Primo
Software
;
Grosso M.
Secondo
Methodology
;
Tronci S.
Ultimo
Conceptualization
2020-01-01

Abstract

In this work, a systematic approach based on the geometric observer is proposed to design a model-based soft sensor, which allows the estimation of quality indexes in a bioreactor. The study is focused on the structure design problem where the set of innovated states has to be chosen. On the basis of robust exponential estimability arguments, it is found that it is possible to distinguish all the unmeasured states if temperature and dissolved oxygen concentration measurements are combined with substrate concentrations. The proposed estimator structure is then validated through numerical simulation considering two different measurement processor algorithms: the geometric observer and the extended Kalman filter.
2020
Bioreactor; Continuous system; Extended kalman filter; Geometric observer; Model-based sensor; Nonlinear state estimation
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11584/290391
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