信息(互联网、内部网等)和能源网络的光纤技术

Yaroslav I. Yaroslavskyy, S. Pavlov, S. Kostyuk, S. Tymchyk
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引用次数: 0

摘要

本文从文献语义的角度对建立远程医疗数据交换的光电网络进行了总结,提出了一系列尚未解决的问题,并确定了其发展的主要方向。在远程医疗数据传输信息通道模型的基础上,开发了用于远程医疗信息交换的光纤通信通道,并介绍了其具有自动增益控制(AMP)的光放大器和自动控制与诊断单元的结构,为远程控制提供了状态确定的光缆光纤;自动诊断电缆的状况,准确确定损坏的位置和性质,将反射器与该区域的地理地图联系起来,并分析VOKZ参数随时间的变化,最终提高了生物医学信息传输的可靠性和质量。自动的。发展光纤远程医疗网络,通过光纤通信渠道交换文尼察地区偏远地区患者远程医疗诊断和健康监测的操作结果,将在未来确保其适应DICOM标准,为决策提供信息支持,以及符合保护患者个人数据要求的灵活的工作管理系统网络。
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Fiber-optical technologies for information (internet, intranet etc.) and energy networks
The article draws a conclusion using the biblio-semantic approach regarding theperspective of creating optoelectronic networks for the exchange of telemedical data, formulateda range of unsolved problems and identified the main directions of their development. Thedevelopment based on the model of the telemedical data transmission information channel of thefiber-optic communication channel for the exchange of telemedical information with theadditional introduction to its structure of optical amplifiers with automatic gain control(AMP) and the unit of automatic control and diagnostics of the optical cable provided remotecontrol with state determination cable fibers; automatic diagnosis of the condition of the cablewith an accurate determination of the location and nature of the damage, linking of reflectors tothe geographical map of the area and analysis of changes in the parameters of the VOKZ overtime, which ultimately increased the reliability and improved the quality of the transmission ofbiomedical information. automatic . The development of a fiber-optic telemedicine network forthe exchange of operational results of telemedical diagnostics and health monitoring of patientsin remote areas of the Vinnytsia region through fiber-optic communication channels will in thefuture ensure its adaptation to the DICOM standard, information support for decision-making,and a flexible work management system network in compliance with the requirements for theprotection of personal data of patients.
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