Delay-independent regulation of blood glucose for type-1 diabetes mellitus patients via an observer-based predictor feedback approach by considering quantization constraints
DOI10.1016/J.EJCON.2021.11.002zbMath1483.92079OpenAlexW4200123631MaRDI QIDQ2667515
Mohammad Saleh Tavazoei, Farzaneh Golestani
Publication date: 4 March 2022
Published in: European Journal of Control (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ejcon.2021.11.002
quantizationevent-triggered controlpredictor feedbackartificial pancreasblood glucose regulationtype-1 diabetes mellitus
Feedback control (93B52) Medical applications (general) (92C50) Discrete event control/observation systems (93C65) Observers (93B53)
Uses Software
Cites Work
- Time-delay model-based control of the glucose-insulin system; by means of a state observer
- Model-based control of plasma glycemia: tests on populations of virtual patients
- Global stability of a delay model of glucose-insulin interaction
- Event-triggered stabilization of nonlinear systems with time-varying sensing and actuation delay
- Optimal blood glucose regulation of diabetic patients using single network adaptive critics
- Application of optimal control theory to diabetes mellitus
- A Parametric Lyapunov Equation Approach to the Design of Low Gain Feedback
- Properties of the Parametric Lyapunov Equation-Based Low-Gain Design With Applications in Stabilization of Time-Delay Systems
- Stabilization of linear systems with time‐varying input delay by event‐triggered delay independent truncated predictor feedback
- Luenberger-Like Observers for Nonlinear Time-Delay Systems with Application to the Artificial Pancreas: The Attainment of Good Performance
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