一种先进的左心室辅助装置生理控制算法

IF 3.8 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Mohsen Bakouri
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引用次数: 0

摘要

左心室辅助装置(lvad)技术需要开发和实施智能控制系统来优化泵速,以满足心力衰竭(HF)患者的生理代谢需求。本工作旨在设计一种先进的跟踪控制算法来驱动LVAD在不同的生理条件下。采用极点放置法结合滑模控制方法(PP-SMC)来构建所提出的控制方法。在本设计中,采用了利用神经网络消除系统不确定性干扰的方法。我们还开发了一个弹性函数,并将其作为模拟心衰患者生理灌注的输入信号。介绍了从休息到锻炼的两种情况来评估所提出的技术。该技术使用心血管系统(CVS)的集总参数模型进行评估。结果表明,所设计的控制器在存在系统参数变化的情况下仍能鲁棒地跟踪输入信号。在这两种情况下,所提出的方法表明,控制器自动驱动LVAD,最小流量为1.7 L/min,以防止抽吸,最小流量为5.7 L/min,以防止过度灌注。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Advanced Physiological Control Algorithm for Left Ventricular Assist Devices
Left ventricular assist devices (LVADs) technology requires developing and implementing intelligent control systems to optimize pump speed to achieve physiological metabolic demands for heart failure (HF) patients. This work aimed to design an advanced tracking control algorithm to drive an LVAD under different physiological conditions. The pole placement method, in conjunction with the sliding mode control approach (PP-SMC), was utilized to construct the proposed control method. In this design, the method was adopted to use neural networks to eliminate system uncertainties of disturbances. An elastance function was also developed and used as an input signal to mimic the physiological perfusion of HF patients. Two scenarios, ranging from rest to exercise, were introduced to evaluate the proposed technique. This technique used a lumped parameter model of the cardiovascular system (CVS) for this evaluation. The results demonstrated that the designed controller was robustly tracking the input signal in the presence of the system parameter variations of CVS. In both scenarios, the proposed method shows that the controller automatically drives the LVAD with a minimum flow of 1.7 L/min to prevent suction and 5.7 L/min to prevent over-perfusion.
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来源期刊
Applied System Innovation
Applied System Innovation Mathematics-Applied Mathematics
CiteScore
7.90
自引率
5.30%
发文量
102
审稿时长
11 weeks
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