A gain-scheduling model predictive controller for blood glucose control in type 1 diabetes

Amjad Abu-Rmileh; Winston Garcia-Gabin

doi:10.1109/TBME.2009.2033663

A gain-scheduling model predictive controller for blood glucose control in type 1 diabetes

Amjad Abu-Rmileh
, Winston Garcia-Gabin

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

This paper presents a control strategy for blood glucose (BG) level regulation in type 1 diabetic patients. To design the controller, model-based predictive control scheme has been applied to a newly developed diabetic patient model. The controller is provided with a feedforward loop to improve meal compensation, a gain-scheduling scheme to account for different BG levels, and an asymmetric cost function to reduce hypoglycemic risk. A simulation environment that has been approved for testing of artificial pancreas control algorithms has been used to test the controller. The simulation results show a good controller performance in fasting conditions and meal disturbance rejection, and robustness against model-patient mismatch and errors in meal estimation.

Original language	English
Pages (from-to)	2478-2484
Number of pages	7
Journal	IEEE Transactions on Biomedical Engineering
Volume	57
Issue number	10 PART 1
DOIs	https://doi.org/10.1109/TBME.2009.2033663
State	Published - 1 Oct 2010
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Gain scheduling (GS)
Model predictive control (MPC)
Type 1 diabetes mellitus (T1DM)

ASJC Scopus subject areas

Biomedical Engineering

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10.1109/TBME.2009.2033663

Cite this

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title = "A gain-scheduling model predictive controller for blood glucose control in type 1 diabetes",

abstract = "This paper presents a control strategy for blood glucose (BG) level regulation in type 1 diabetic patients. To design the controller, model-based predictive control scheme has been applied to a newly developed diabetic patient model. The controller is provided with a feedforward loop to improve meal compensation, a gain-scheduling scheme to account for different BG levels, and an asymmetric cost function to reduce hypoglycemic risk. A simulation environment that has been approved for testing of artificial pancreas control algorithms has been used to test the controller. The simulation results show a good controller performance in fasting conditions and meal disturbance rejection, and robustness against model-patient mismatch and errors in meal estimation.",

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AU - Garcia-Gabin, Winston

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N2 - This paper presents a control strategy for blood glucose (BG) level regulation in type 1 diabetic patients. To design the controller, model-based predictive control scheme has been applied to a newly developed diabetic patient model. The controller is provided with a feedforward loop to improve meal compensation, a gain-scheduling scheme to account for different BG levels, and an asymmetric cost function to reduce hypoglycemic risk. A simulation environment that has been approved for testing of artificial pancreas control algorithms has been used to test the controller. The simulation results show a good controller performance in fasting conditions and meal disturbance rejection, and robustness against model-patient mismatch and errors in meal estimation.

AB - This paper presents a control strategy for blood glucose (BG) level regulation in type 1 diabetic patients. To design the controller, model-based predictive control scheme has been applied to a newly developed diabetic patient model. The controller is provided with a feedforward loop to improve meal compensation, a gain-scheduling scheme to account for different BG levels, and an asymmetric cost function to reduce hypoglycemic risk. A simulation environment that has been approved for testing of artificial pancreas control algorithms has been used to test the controller. The simulation results show a good controller performance in fasting conditions and meal disturbance rejection, and robustness against model-patient mismatch and errors in meal estimation.

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KW - Type 1 diabetes mellitus (T1DM)

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JO - IEEE Transactions on Biomedical Engineering

JF - IEEE Transactions on Biomedical Engineering

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A gain-scheduling model predictive controller for blood glucose control in type 1 diabetes

Abstract

UN SDGs

Keywords

ASJC Scopus subject areas

Access to Document

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