一种便于生理信号处理算法开发的并行计算接口。

A parallel computing interface to facilitate development of physiologic signal processing algorithms.

作者信息

Oppenheim M I, Factor M, Sittig D F

机构信息

Yale Center for Medical Informatics, Yale University School of Medicine, New Haven, CT 06510.

出版信息

Proc Annu Symp Comput Appl Med Care. 1991:450-4.

PMID:1807641

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2247572/

Abstract

We have created a system to aid in the development of algorithms related to the blood pressure waveform. The system performs all of the basic analyses of the waveform, and allows the user to utilize the results of those analyses for the algorithm under development. We have used a parallel programming architecture which keeps the different tasks, or processes, within the system independent of each other. Additionally, we have developed a graphics interface to enable the user to visualize the waveform, the system analysis, and the internal workings of the algorithm under development.

摘要

我们创建了一个系统，以协助开发与血压波形相关的算法。该系统执行波形的所有基本分析，并允许用户将这些分析结果用于正在开发的算法。我们使用了并行编程架构，使系统内的不同任务或进程相互独立。此外，我们还开发了一个图形界面，以便用户能够可视化波形、系统分析以及正在开发的算法的内部工作原理。

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本文引用的文献

A real-time pressure algorithm.一种实时压力算法。

Comput Biol Med. 1981;11(4):211-20. doi: 10.1016/s0010-4825(81)80023-6.

Continuous, real-time, noninvasive monitor of blood pressure: Penaz methodology applied to the finger.连续、实时、无创血压监测：应用于手指的彭纳兹方法

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Arterial waveforms and systemic vascular resistance: is there a correlation?动脉波形与全身血管阻力：它们之间存在关联吗？

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A parallel software architecture for building intelligent medical monitors.

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On-line computer processing of pressure data from cardiac catheterizations.心脏导管插入术压力数据的在线计算机处理。

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