Gain-Scheduled Observer-Based Finite-Time Control Algorithm for an Automated Closed-Loop Insulin Delivery System

Alam, Waqar; Khan, Qudrat; Riaz, Raja Ali; Akmeliawati, Rini; Khan, İlyas; Nisar, Kottakkaran Sooppy

doi:10.1109/access.2020.2997776

Cited by 10 publications

(8 citation statements)

References 45 publications

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“…So, following the procedure outlined in [20], assume a T i to be the ith row of the matrix A(x). For this purpose (33) and (34) can be rewritten as…”

Section: Optimal Linearization Of Pmsg-wecsmentioning

confidence: 99%

“…To transform the system into two subsystems i.e., system with available states and system with non-available states, a similarity transformation of the following form is carried out. Let T = [N T C] T (where N T generates the null space of C) be the transformation which transforms (43) to the following form [20]…”

Section: Gain-scheduled Utkin Observer: a Sliding Mode Observermentioning

confidence: 99%

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MPPT Control Paradigms for PMSG-WECS: A Synergistic Control Strategy With Gain-Scheduled Sliding Mode Observer

Khan

et al. 2021

IEEE Access

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The wind energy conversion system (WECS) frequently operates under highly stochastic and unpredictable wind speed. Thus, the maximum power (MP) extraction, in such unpredictable scenarios, becomes a very appealing control objective. This paper focuses on the extraction of MP from a variablespeed WECS, which further drives a permanent magnet synchronous generator (PMSG). At the first stage, the dynamical model of PMSG is converted into Bronwsky form, which is comprised of both visible and internal dynamics. The first-order internal dynamics are proved stable, i.e., the system is in the minimum phase. The control of the second-order visible dynamics, to track a varying profile of the wind speed, is the main consideration. This job is accomplished via Backstepping-based robust Sliding Mode Control (SMC) strategy. Since the conventional SMC suffers from the inherited chattering issue, thus, the discontinuous control component in the SMC scheme is replaced with super-twisting and real-twisting control laws. In addition, the immeasurable states' information is estimated via gain-scheduled sliding mode observer. The overall closed-loop stability is ensured by analysing the quasi-linear form, which supports the separation principle. The theoretical claims are authenticated via simulation results, which are performed in Matlab/Simulink environment. Besides, a comparative analysis is carried out with the standard literature results, which quite obviously outshines the investigated control approaches in terms of varying wind profile tracking and the corresponding control input.INDEX TERMS Wind energy conversion system, Maximum power tracking, Sliding mode control strategy, Permanent magnet Synchronous generator.

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“…So, following the procedure outlined in [20], assume a T i to be the ith row of the matrix A(x). For this purpose (33) and (34) can be rewritten as…”

Section: Optimal Linearization Of Pmsg-wecsmentioning

confidence: 99%

Section: Gain-scheduled Utkin Observer: a Sliding Mode Observermentioning

confidence: 99%

MPPT Control Paradigms for PMSG-WECS: A Synergistic Control Strategy With Gain-Scheduled Sliding Mode Observer

Khan

et al. 2021

IEEE Access

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“…The principal novelties of the proposed control method are as follows: Unlike most previous controllers designed to control BGC, the proposed controller ensures that the control input always remains positive. Unlike Refs. [8–21], the controller just requires the measurement of the BGC, which can be easily measured by BGC sensors, and two individual observers are designed to estimate the insulin and plasma concentrations. Unlike Refs. [4–9], the controller is designed using non‐linear control methods, and the system's asymptotic stability is analysed using the Lyapunov theorem.…”

Section: Introductionmentioning

confidence: 99%

“…In Ref. [ 18 ], the BMM is linearised at specific points and the gain scheduling method is employed to design a controller, however, only local convergence is ensured. In Ref.…”

Section: Introductionmentioning

confidence: 99%

Positive input observer‐based controller design for blood glucose regulation for type 1 diabetic patients: A backstepping approach

Homayounzade

2022

IET Systems Biology

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In practice, there are many physical systems that can have only positive inputs, such as physiological systems. Most conventional control methods cannot ensure that the main system input is positive. A positive input observer-based controller is designed for an intravenous glucose tolerance test model of type 1 diabetes mellitus (T1DM). The backstepping (BS) approach is employed to design the feedback controller for artificial pancreas (AP) systems, based on the Extended Bergman's Minimal Model (EBMM). The EBMM represents the T1DM in terms of the blood glucose concentration (BGC), insulin concentration, and plasma level and the disturbance of insulin during medication due to either meal intake or burning sugar by doing some physical exercise. The insulin concentration and plasma level are estimated using observers, and these estimations are applied as feedback to the controller. The asymptotic stability of the observer-based controller is proved using the Lyapunov theorem. Moreover, it is proved that the system is bounded input-bounded output (BIBO) stable in the presence of uncertainties generated by uncertain parameters and external disturbance. For realistic situations, we consider only the BGC to be available for measurement and additionally inter-and intrapatient variability of system parameters is considered.

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“…However,

H_{\infty}

controllers are of high order and fragile. In [30], the BMM is linearized at specified points, and the gain scheduling control technique is utilized to design a controller for the AP system. However, the controller only ensures local convergence.…”

Section: Introductionmentioning

confidence: 99%

Variable structure robust controller design for blood glucose regulation for type 1 diabetic patients: A backstepping approach

Homayounzade

2021

IET Systems Biology

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Diabetes mellitus type 1 occurs when β-cells in the pancreas are destroyed by the immune system. As a result, the pancreas cannot produce adequate insulin, and the glucose enters the cells to produce energy. To elevate the glycaemic concentration, sufficient amount of insulin should be taken orally or injected into the human body. Artificial pancreas is a device that automatically regulates the level of body insulin by injecting the requisite amount of insulin into the human body. A finite-time robust feedback controller based on the Extended Bergman Minimal Model is designed here. The controller is designed utilizing the backstepping approach and is robust against the unknown external disturbance and parametric uncertainties. The stability of the system is proved using the Lyapunov theorem. The controller is exponentially stable and hence provides the finitetime convergence of the blood glucose concentration to its desired magnitude. The effectiveness of the proposed control method is shown through simulation in MATLAB/ Simulink environment via comparisons with previous studies.This is an open access article under the terms of the Creative Commons Attribution-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited and no modifications or adaptations are made.

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Gain-Scheduled Observer-Based Finite-Time Control Algorithm for an Automated Closed-Loop Insulin Delivery System

Cited by 10 publications

References 45 publications

MPPT Control Paradigms for PMSG-WECS: A Synergistic Control Strategy With Gain-Scheduled Sliding Mode Observer

MPPT Control Paradigms for PMSG-WECS: A Synergistic Control Strategy With Gain-Scheduled Sliding Mode Observer

Positive input observer‐based controller design for blood glucose regulation for type 1 diabetic patients: A backstepping approach

Variable structure robust controller design for blood glucose regulation for type 1 diabetic patients: A backstepping approach

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