电子医学综合症的先进原型利用DAQ

Souvik Banerjee, Shounak Bandyopadhyay, S. Deb, Rituparna Das, Rohit Khatri, Sunipa Roy
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引用次数: 0

摘要

本文介绍了利用快速采样率和后续采集对医疗电信号进行仿真和恢复的影响。不同性质的信号相关的心电图,肌电图,脑电图,断层扫描,共振和成像报道。本研究的目的是在危急环境下的持续监测,提供即时的医疗照顾和支援。该平台具有多轴分时功能,可以方便地查看相关信息,有利于降低基础设施成本。我们决定开发一个独特的“主机站”,建议采用全超活跃PIC基础以及计算机上的总趋势调节。通过智能感应舱进行心跳率分类的血氧模拟将是解决的目标,随后将在友好端口和定制窗口下放置其他悖论和互动设施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advanced prototyping of electro-medical syndrome using DAQ
this paper presents the impact of utilizing the Simulation and Restoration of Electro medical signals with speedy sampling rate and subsequent acquisition. Varied nature of signals related to ECG, EMG, EEG, Tomographic, Resonance and Imaging are reported. The aim of this research is the continuous monitoring under critical environment to provide on dot medical attention and support. There is a singularized platform with multiaxial time sharing facility which makes the ease of viewing correlation which benefits us to reduce the cost on infrastructure. We decided to develop a unique 'Host Station' proposed to be engineered with full super active PIC base along with total trend regulation over a computer. The Oximetry simulation categorized with rate of beats through smart sensing bay would be the target to address which will be followed by other paradox and interactive facilities under friendly port and customized window to be plated.
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