Title :
Multivariable Adaptive Identification and Control for Artificial Pancreas Systems
Author :
Turksoy, Kamuran ; Quinn, Laurie ; Littlejohn, Elizabeth ; Cinar, Ali
Author_Institution :
Dept. of Biomed. Eng., Illinois Inst. of Technol., Chicago, IL, USA
Abstract :
A constrained weighted recursive least squares method is proposed to provide recursive models with guaranteed stability and better performance than models based on regular identification methods in predicting the variations of blood glucose concentration in patients with Type 1 Diabetes. Use of physiological information from a sports armband improves glucose concentration prediction and enables earlier recognition of the effects of physical activity on glucose concentration. Generalized predictive controllers (GPC) based on these recursive models are developed. The performance of GPC for artificial pancreas systems is illustrated by simulations with UVa-Padova simulator and clinical studies. The controllers developed are good candidates for artificial pancreas systems with no announcements from patients.
Keywords :
biochemistry; blood; diseases; least mean squares methods; medical control systems; physiological models; GPC performance; UVa-Padova simulator; artificial pancreas system control; artificial pancreas systems; blood glucose concentration; constrained weighted recursive least square method; generalized predictive controllers; multivariable adaptive identification; recursive models; type 1 diabetes; Adaptation models; Autoregressive processes; Data models; Diabetes; Insulin; Predictive models; Sugar; Adaptive control; artificial pancreas (AP); constrained optimization; recursive identification; type 1 diabetes (T1D);
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2013.2291777
