病人生命体征的软硬件综合监测

S. Abdihalikov, D. Ripka
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引用次数: 3

摘要

本文提出了一种组织硬件-软件医疗综合体结构图的方法,其中主要关注:构建用于记录和处理生理信号的生物医学系统体系结构的方法,增加了该综合体的功能和可制造性;以数学模型的分布和数据的物理表示解决了识别的并行处理问题,该技术提供了对多个生理信号的配准、存储、处理、分析功能:脉搏、体温、心电图;可靠性高,抗干扰能力强;为了减少遥测数据量和大量信息的传输,以及提高无线数据传输的速度,开发了一种新颖的电路解决方案。在硬件-软件医疗综合体的帮助下监测生命体征,可以提高患者在检查期间的生活质量,并允许您量化患者心血管系统对压力测试的反应,确定刺激方案和治疗对植入起搏器的患者以及许多其他病症的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hardware and Software Medical Complex Monitoring of Vital Signs of the Patient
The paper proposes a method of organizing a structural diagram of a hardware-software medical complex, in which the main attention was paid to: a method for constructing the architecture of a biomedical system for recording and processing physiological signals, which increases the functionality of the complex and its manufacturability; a mathematical model of the distribution and physical representation of data to solve the problem of identifying parallel processes the technique provides functions of registration, storage, processing, analysis of a number of physiological signals: pulse, body temperature, electrocardiograms; high reliability and immunity to interference; the development of an original circuitry solution in order to reduce the amount of telemetric data and the large amount of information transmitted, as well as increase the speed of wireless data transfer. Monitoring vital signs with the help of a hardware-software medical complex improves the quality of life of the patient during the examination and allows you to quantify the response of the patient's cardiovascular system to stress tests, establish the effectiveness of the stimulation regimen and therapy in patients with implanted pacemakers, and many other pathologies.
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