Observer-based control for plasma glucose regulation in type 1 diabetes mellitus patients with unknown input delay

IF 2.2 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Boubekeur Targui, Jose-Fernando Castro-Gomez, Omar Hernández-González, Guillermo Valencia-Palomo, María-Eusebia Guerrero-Sánchez
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Abstract

This article introduces an observer-based control strategy tailored for regulating plasma glucose in type 1 diabetes mellitus patients, addressing challenges like unknown time-varying delays and meal disturbances. This control strategy is based on an extended Bergman minimal model, a nonlinear glucose-insulin model to encompass unknown inputs, such as unplanned meals, exercise disturbances, or delays. The primary contribution lies in the design of an observer-based state feedback control in the presence of unknown long delays, which seeks to support and enhance the performance of the traditional artificial pancreas by considering realistic scenarios. The observer and control gains for the observer-based control are computed through linear matrix inequalities formulated from Lyapunov conditions that guarantee closed-loop stability. This design deploys a soft and gentle dynamic response, similar to a natural pancreas, despite meal disturbances and input delays. Numerical tests demonstrate the scheme's effectiveness in glycemic level regulation and hypoglycemic episode avoidance.

对输入延迟未知的 1 型糖尿病患者进行基于观察者的血浆葡萄糖调节控制。
本文介绍了一种基于观察者的控制策略,专门用于调节 1 型糖尿病患者的血浆葡萄糖,以应对未知时变延迟和进餐干扰等挑战。该控制策略基于一个扩展的伯格曼最小模型,即一个非线性葡萄糖-胰岛素模型,以涵盖未知输入,如计划外进餐、运动干扰或延迟。该方法的主要贡献在于设计了一种基于观测器的状态反馈控制,在存在未知长延迟的情况下,通过考虑现实场景来支持和提高传统人工胰腺的性能。基于观测器的控制的观测器和控制增益是通过线性矩阵不等式计算出来的,而线性矩阵不等式是根据保证闭环稳定性的 Lyapunov 条件制定的。尽管存在膳食干扰和输入延迟,这种设计仍能产生类似天然胰腺的柔和动态响应。数值测试证明了该方案在调节血糖水平和避免低血糖发作方面的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal for Numerical Methods in Biomedical Engineering
International Journal for Numerical Methods in Biomedical Engineering ENGINEERING, BIOMEDICAL-MATHEMATICAL & COMPUTATIONAL BIOLOGY
CiteScore
4.50
自引率
9.50%
发文量
103
审稿时长
3 months
期刊介绍: All differential equation based models for biomedical applications and their novel solutions (using either established numerical methods such as finite difference, finite element and finite volume methods or new numerical methods) are within the scope of this journal. Manuscripts with experimental and analytical themes are also welcome if a component of the paper deals with numerical methods. Special cases that may not involve differential equations such as image processing, meshing and artificial intelligence are within the scope. Any research that is broadly linked to the wellbeing of the human body, either directly or indirectly, is also within the scope of this journal.
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