基于LabView的左心模型心脏控制系统

S. Rahul, R. Chitra, Seeram Sai Sudheer, Palevla Venkata Naga Ravi Teja, Amruthavalli Archakam, Jaswanth Reddy Modium
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引用次数: 0

摘要

随着生物医学工程研究的不断深入,人们建立了一些心血管系统的数学模型,但由于范围的限制,这些模型的应用受到了阻碍。本研究旨在开发一个模拟程序来研究人类心脏的充盈和弹射现象。本研究通过LabVIEW仿真工具研究了基于传递函数模型的心脏系统的控制方案。通过将生理系统关联到等效的数学模型(如传递函数模型)中,可以模拟和分析人类心脏的基本生理特征。在这项工作中展示了人类心脏的充血和射血模型。给出并讨论了人体心血管控制系统在充血和射血过程中的循环图形。控制方案的性能成功地帮助在阈值水平上保持重要参数。这个数学模型可以用来更深入地了解人类心脏的功能。它还有助于开发心血管系统的精确模型,帮助分析人类心脏动脉的压力脉冲。本研究为今后人工心脏起搏器的进一步研究奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Model Based Cardiac Control System For The Left Heart Using LabView
With advancements in biomedical engineering research several mathematical models were developed for cardiovascular system, but their utilization has hindered due to scope limitations. This study aims to develop a simulation program to study the phenomena of filling and ejection in the Human Heart. This study investigates the Control Scheme for a transfer function Model-Based Cardiac System through the simulation tool LabVIEW. It is possible to simulate and analyze essential physiological features of the human heart by correlating the physiological system into an equivalent Mathematical Model such as the Transfer Function model. The blood filling and ejection models of the human heart are demonstrated in this work. The circulatory graphical plots of the Human Cardiovascular Control System during the phenomena of blood filling and ejection are presented and discussed. The performance of the control scheme successfully aids in retaining the significant parameters at the threshold level. The mathematical model can be used to gain deeper insights into the functioning of the human heart. It also aids in the development of an accurate model of the cardiovascular system that helps in analyzing the pressure pulse in the arteries of the human heart. This study paves a way for further research studies in Artificial Pacemaker as a future scope.
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