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- Title
Model-Based Adaptive Control of Bioreactors—A Brief Review.
- Authors
Lyubenova, Velislava; Ignatova, Maya; Zoteva, Dafina; Roeva, Olympia
- Abstract
This article summarizes the authors' experiences in the development and application of the General Dynamical Model Approach related to adaptive linearizing control of biotechnological processes. Special attention has been given to some original, innovative solutions in model-based process control theory: new formalization of biotechnological process kinetics, derivation and tuning of the general software sensor of the full kinetics of biotechnological processes, and a general algorithm for fully adaptive linearizing control with software sensors. These theoretical solutions are the basis of three control strategies—fully adaptive control of the main substrate, partially adaptive control of intermediate metabolite, and recognition and stabilization of the desired physiological state based on the proposed theoretical solutions. Each strategy is illustrated in different case studies. The advantages and limitations of each of them are identified and discussed. The derived algorithms for monitoring and controlling the considered biotechnological processes are realized and included in a software platform named Interactive System for Education in Modelling and Control of Bioprocesses (InSEMCoBio). The InSEMCoBio modules and their main functions are discussed. The effectiveness of the proposed control strategies (achieving maximum productivity) has been proven through a series of simulation investigations of the considered case studies.
- Subjects
BIOTECHNOLOGICAL process control; ADAPTIVE control systems; SYSTEMS software; BIOCHEMICAL substrates; ALGORITHMS
- Publication
Mathematics (2227-7390), 2024, Vol 12, Issue 14, p2205
- ISSN
2227-7390
- Publication type
Article
- DOI
10.3390/math12142205