Artificial pancreas control using optimized fuzzy logic based genetic algorithm

A. Abougarair, Mosab JA Abujarir, Hana Tarek Tilamon
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Abstract

The aim of this paper is to develop an artificial pancreas that can automate the process of monitoring blood glucose levels and administering insulin to diabetic patients. The device incorporates a fuzzy controller that is optimized through a genetic algorithm and designed using MATLAB. The system comprises three key components: a continuous glucose monitoring (CGM) system, an insulin pump, and the fuzzy controller. The CGM measures blood glucose levels in real-time, and the insulin pump administers insulin doses to maintain blood glucose levels within a specific range. The fuzzy controller adjusts the insulin delivery rate based on the patient's blood glucose levels and their target range. To enhance the system's performance, a genetic algorithm is used to fine-tune the parameters of the fuzzy controller, seeking the optimal set of parameters that minimize the difference between the patient's blood glucose levels and the desired target range. The system is implemented in MATLAB, and simulation results indicate its effectiveness in maintaining blood glucose levels within the desired target range, reducing the risk of hypoglycemia and hyperglycemia. In summary, the proposed artificial pancreas system provides an effective automated solution for monitoring blood glucose levels and administering insulin to diabetic patients, with the fuzzy controller and genetic algorithm optimization enhancing the system's performance.
基于优化模糊逻辑的遗传算法控制人工胰腺
本文的目的是开发一种人工胰腺,它可以自动监测血糖水平并给糖尿病患者注射胰岛素。该装置采用遗传算法优化模糊控制器,并利用MATLAB进行设计。该系统由三个关键部件组成:连续血糖监测(CGM)系统、胰岛素泵和模糊控制器。CGM实时测量血糖水平,胰岛素泵控制胰岛素剂量以维持血糖水平在特定范围内。模糊控制器根据患者的血糖水平及其目标范围调整胰岛素输送率。为了提高系统的性能,采用遗传算法对模糊控制器的参数进行微调,寻求最优的参数集,使患者的血糖水平与期望的目标范围之间的差异最小。该系统在MATLAB中实现,仿真结果表明其能够有效地将血糖水平维持在理想的目标范围内,降低低血糖和高血糖的发生风险。综上所述,本文提出的人工胰腺系统为糖尿病患者血糖监测和胰岛素管理提供了有效的自动化解决方案,模糊控制器和遗传算法优化增强了系统的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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