Design an Optimal Fractional Order PID Controller Based on New Algorithms and a Fuzzy Logic Controller to Regulate Type 1 Diabetes Patients

Benzian, Salah; Ameur, A.; Rebai, Aissa

doi:10.18280/jesa.540301

Cited by 4 publications

(6 citation statements)

References 29 publications

(99 reference statements)

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“…As demonstrated in Table 7, we compared the simulation results of the suggested off-line adaptive The fractional order PID and the fuzzy logic controllers in [8] were built for the linear Bergman model and only for the first patient, using only five rules for the membership function and using the tryand-error method for obtaining the gain in the inputoutput fuzzy logic controller. Therefore, the controller generates a fast and non-optimal value of the insulin control action that leads to an overshoot in the response of the blood glucose level.…”

Section: Simulation Resultsmentioning

confidence: 99%

“…They used the Ziegler-Nichols (Z-N) tuning method to find the control parameters, which led to an overshoot in the response of the blood glucose of the patient because the Z-N tuning method is not suitable for exploring and exploiting the global extreme solution of the problem. Furthermore, the authors in [8] employed the fractional order PID controller and the fuzzy logic controller for regulating the blood glucose level of a T1D patient, and they used many types of meta-heuristic algorithms for tuning the control gain parameters of the FOPID. However, the limitation of this work is that these controllers have been built for the linear Bergman model and only for one patient, and they used only five rules for the membership function, with a try-and-error method to obtain the gain in the input-output fuzzy logic controller.…”

Section: Introductionmentioning

confidence: 99%

“…Table 1 shows the parameters of the Bergman model equations that describe normal, first, second, and third patients as follows [8,10,17,18].…”

mentioning

confidence: 99%

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Enhancement of the Blood Glucose Level for Diabetic Patients Based on an Adaptive Auto-Tuned PID Controller via Meta-Heuristic Methods

2024

IJIES

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This work proposes an intelligent method that uses an adaptive auto-tuned proportional-integral-derivative (PID) controller to track and regulate the blood glucose level of diabetic patients. The suggested controller seeks to provide the optimal insulin control action, which is in charge of swiftly, precisely, and accurately managing the blood glucose level. To train this controller, two meta-heuristic techniques are employed. The first technique is the particle swarm optimization (PSO), which has been widely used in both data estimation and training because of its quick computing speed, while the second one is an intrusion detection technique called grey wolf optimization (GWO), which was created to categorize data and effectively find multiple intrusions. The mean square error performance index is used in the two distinct meta-heuristic algorithm types to determine and optimize the optimal or nearly optimal gain parameters of the adaptive PID controller. The results of the MATLAB simulations for three different patients demonstrated the efficacy and resilience of the proposed control algorithm in tracking the dynamic behaviour of the diabetic patients' blood glucose levels by minimizing overshoot in the transient state to zero value, maintaining the steady-state blood glucose level in the normal physiological level of (60-120) mg/dl. These characteristics were particularly evident when we added a meal as a disturbance effect. Moreover, the comparison results showed that the proposed PID-GWO and PID-PSO algorithms enhanced the time (96 and 88) minutes to reach the blood glucose level at a normal physiological level by 4% and 12%, respectively, when compared to the fractional order PID and fuzzy logic control algorithms that the blood glucose level reached at a normal physiological level at 100 minutes and improved the time by 20% and 27%, respectively, when compared to the type-2 fuzzy control algorithm that the blood glucose level reached at a normal level at 120 minutes. In particular, the blood glucose level was kept at the desired normal physiological level without any oscillation.

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Section: Simulation Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Enhancement of the Blood Glucose Level for Diabetic Patients Based on an Adaptive Auto-Tuned PID Controller via Meta-Heuristic Methods

2024

IJIES

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“…V qref = E q + V * q + ωL f I d (9) where: E d , E q the voltages of the common connection points to the grid; L f is the coupling inductance of the filter device. In recent years, researchers have been interested in a new design of the PID controller to be applied in many domains, especially control theories compared to classical PID controllers because of their advantages, which are to increase the performance of non-linear, dynamic systems and to be less sensitive to changes in system parameters [9,39].…”

Section: Inverter Control Systemmentioning

confidence: 99%

“…Figure 6. PWM control strategy 3.2.1 Fractional order PID controllerIn recent years, researchers have been interested in a new design of the PID controller to be applied in many domains, especially control theories compared to classical PID controllers because of their advantages, which are to increase the performance of non-linear, dynamic systems and to be less sensitive to changes in system parameters[9,39].This control device is named fractional order PID (or FOP 𝐼 𝜆 𝐷 𝜇 ) and has been proposed by Podlunby since the 1990s[40]. In addition to the control parameters 𝐾 𝑝 , 𝐾 𝑖 and 𝐾 𝑑 of a classical PID controller, there are 𝜆 and 𝜇 , the fractional components of the integral and derivative parts respectively.Figure7illustrates the block diagram of the fractional order PID controller.…”

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confidence: 99%

Optimization of Fractional Order PI Controller by PSO Algorithm Applied to a Grid-Connected Photovoltaic System

Bouderres¹,

Kerdoun²,

Djellad³

et al. 2022

JESA

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With the increasing integration of renewable energies into power grids, their control and power quality are becoming the main focus of many research efforts. In a grid-connected photovoltaic system, the control strategy is necessary to efficiently use the solar energy as well as to ensure high power quality. This paper presents a study on the robustness of a Fractional Order PI controller based on the Particle Swarm Optimization algorithm (PSO-FOPI) in a grid-connected PV system. The controller used was integrated into the inverter to apply voltage-oriented control (VOC). Fractional order controllers have an additional degree of freedom, so that a wider range of parameters is available to provide better control. Parameter optimization of the FOPI and classical PI controllers are performed using the PSO algorithm. The performance of the FOPI controller is compared with that of the classical PI controller. A complete study of the behavior of the grid connected PV system is tested using MATLAB/Simulink. The simulation results show the performance and efficiency of the PSO-FOPI controller compared to the classical PI controller in terms of rapidity, stability and precision, as well as the THD reduction of the current injected to the grid for any variation of solar irradiance.

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IMO-PSO FO-PID controller based insulin infusion system for type 1 diabetes patients during post-operation condition

Saravanakumar,

Samson Isaac

2024

Measurement: Sensors

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Design an Optimal Fractional Order PID Controller Based on New Algorithms and a Fuzzy Logic Controller to Regulate Type 1 Diabetes Patients

Cited by 4 publications

References 29 publications

Enhancement of the Blood Glucose Level for Diabetic Patients Based on an Adaptive Auto-Tuned PID Controller via Meta-Heuristic Methods

Enhancement of the Blood Glucose Level for Diabetic Patients Based on an Adaptive Auto-Tuned PID Controller via Meta-Heuristic Methods

Optimization of Fractional Order PI Controller by PSO Algorithm Applied to a Grid-Connected Photovoltaic System

IMO-PSO FO-PID controller based insulin infusion system for type 1 diabetes patients during post-operation condition

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