Parameter identification and state estimation for a diabetic glucose-insulin model via an adaptive observer

In this article, an adaptive observer is designed for patients with Type 1 Diabetes Mellitus. The adaptive observer, synthesized using the so-called Bergman's Minimal Model, simultaneously estimates the states and the parameter corresponding to the insulin-independent glucose disappearance rate. The adaptive observer deals with parameter uncertainties, whereas the food intake is regarded as an external disturbance. The adaptive observer relies on intravenous glucose measurements. The state estimation error converges to a neighborhood of the origin despite the effects of the external disturbances and uncertainties, while the parameter estimation error converges in a fixed time to a neighborhood of the origin. The adaptive observer synthesis is given by a constructive method based on linear matrix inequalities. Simulation results show the feasibility of the proposed scheme. Moreover, the approach is validated in UVA/Padova metabolic simulator for ten in silico adult patients.

Automated summary

An adaptive observer is designed for patients with Type 1 Diabetes Mellitus in this article. The adaptive observer simultaneously estimates the states and the parameter corresponding to the insulin-independent glucose disappearance rate using the Bergman's Minimal Model. The adaptive observer deals with parameter uncertainties and treats food intake as an external disturbance. The synthesis of the adaptive observer is based on a constructive method using linear matrix inequalities. Simulation results and validation in a metabolic simulator demonstrate the feasibility of the proposed scheme.