Article: Design of artificial pancreas based on the SMGC and self-tuning PI control in type-I diabetic patient Journal: International Journal of Biomedical Engineering and Technology (IJBET) 2020 Vol.32 No.1 pp.1 - 35 Abstract: Optimal closed loop control of blood glucose (BG) level has been a major focus for the past so many years to realise an artificial self-regulating insulin device for type-I diabetes mellitus (TIDM) patients. There is urgency for controlled drug delivery system to design with appropriate controller not only to regulate the blood glucose but also for other chronic clinical disorders requiring continuous long-term medication. As a solution to the above problem, a novel optimal self-tuning PI controller is proposed whose gains dynamically vary with respect to the error signal. The controller is verified with a nonlinear model of the diabetic patient under various uncertainties arises in various physiological conditions and wide range of disturbances. A comparative analysis of self-tuning PI controller performance has been done with the sliding mode Gaussian control (SMGC) and other optimal control techniques. Obtained results clearly reveal the better performance of the proposed method to regulate the BG level within the <i>normoglycaemic</i> range (70-120 mg/dl) in terms of accuracy, robustness and handling uncertainties. Inderscience Publishers - linking academia, business and industry through research

Title: Design of artificial pancreas based on the SMGC and self-tuning PI control in type-I diabetic patient

Authors: Akshaya Kumar Patra; Pravat Kumar Rout

Addresses: Department of Electrical and Electronics Engineering, ITER, Siksha 'O' Anusandhan University, Bhubaneswar 751030, Odisha, India ' Department of Electrical and Electronics Engineering, ITER, Siksha 'O' Anusandhan University, Bhubaneswar 751030, Odisha, India

Abstract: Optimal closed loop control of blood glucose (BG) level has been a major focus for the past so many years to realise an artificial self-regulating insulin device for type-I diabetes mellitus (TIDM) patients. There is urgency for controlled drug delivery system to design with appropriate controller not only to regulate the blood glucose but also for other chronic clinical disorders requiring continuous long-term medication. As a solution to the above problem, a novel optimal self-tuning PI controller is proposed whose gains dynamically vary with respect to the error signal. The controller is verified with a nonlinear model of the diabetic patient under various uncertainties arises in various physiological conditions and wide range of disturbances. A comparative analysis of self-tuning PI controller performance has been done with the sliding mode Gaussian control (SMGC) and other optimal control techniques. Obtained results clearly reveal the better performance of the proposed method to regulate the BG level within the normoglycaemic range (70-120 mg/dl) in terms of accuracy, robustness and handling uncertainties.

Keywords: type-I diabetes mellitus; TIDM; insulin dose; artificial pancreas; micro-insulin dispenser; sliding mode Gaussian control; SMGC; self-tuning PI control.

DOI: 10.1504/IJBET.2020.104675

International Journal of Biomedical Engineering and Technology, 2020 Vol.32 No.1, pp.1 - 35

Received: 05 Jan 2017
Accepted: 23 Mar 2017
Published online: 28 Jan 2020 *

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Title: Design of artificial pancreas based on the SMGC and self-tuning PI control in type-I diabetic patient

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