MPC Design for Rapid Pump-Attenuation and Expedited Hyperglycemia Response to Treat T1DM with an Artificial Pancreas.

Ravi Gondhalekar, Eyal Dassau, Francis J Doyle
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引用次数: 29

Abstract

The design of a Model Predictive Control (MPC) strategy for the closed-loop operation of an Artificial Pancreas (AP) for treating Type 1 Diabetes Mellitus (T1DM) is considered in this paper. The contribution of this paper is to propose two changes to the usual structure of the MPC problems typically considered for control of an AP. The first proposed change is to replace the symmetric, quadratic input cost function with an asymmetric, quadratic function, allowing negative control inputs to be penalized less than positive ones. This facilitates rapid pump-suspensions in response to predicted hypoglycemia, while simultaneously permitting the design of a conservative response to hyperglycemia. The second proposed change is to penalize the velocity of the predicted glucose level, where this velocity penalty is based on a cost function that is again asymmetric, but additionally state-dependent. This facilitates the accelerated response to acute, persistent hyperglycemic events, e.g., as induced by unannounced meals. The novel functionality is demonstrated by numerical examples, and the efficacy of the proposed MPC strategy verified using the University of Padova/Virginia metabolic simulator.

Abstract Image

Abstract Image

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MPC设计用于快速泵衰减和加速高血糖反应治疗T1DM与人工胰腺。
本文研究了用于治疗1型糖尿病(T1DM)的人工胰腺(AP)闭环手术的模型预测控制(MPC)策略设计。本文的贡献是对通常用于控制AP的MPC问题的通常结构提出了两个变化。第一个提议的变化是用不对称的二次函数取代对称的二次输入成本函数,允许负控制输入比正控制输入受到的惩罚要小。这有利于快速泵悬响应预测低血糖,同时允许设计一个保守的高血糖反应。第二个提议的改变是惩罚预测葡萄糖水平的速度,其中速度惩罚是基于同样不对称的成本函数,但额外依赖于状态。这有助于加速对急性、持续性高血糖事件的反应,例如,由不通知的饭菜引起的高血糖事件。通过数值算例证明了这种新功能,并使用帕多瓦大学/弗吉尼亚代谢模拟器验证了所提出的MPC策略的有效性。
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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CiteScore
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