• Title/Summary/Keyword: Intrabed network

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Intrabed Networks in a Patient Monitoring System (환자 모니터링 시스템에서의 통신 방식(I) : 인트라베드 통신망)

  • 우응제;박승훈;김경수;최근호;김승태;이희철;서재준;김형진
    • Journal of Biomedical Engineering Research
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    • v.18 no.4
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    • pp.373-380
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    • 1997
  • In this paper, we describe the intrabed network in a patient monitoring system we developed The intrabed network handles data communication between the main unit of a bedside patient monitor and parameter modules plugged in it. We designed the intrabed network based on RS-485 and HDLC protocol with 1 Mbps data rate. Message exchanges are implemented based on three data structures of packet frame. and stream. We present the specification and the performance of the data communication network for the developed patient monitor.

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Intrabed and Interbed Networks for Patient Monitoring (환자 모니터링을 위한 인트라베드 및 인터베드 통신망)

  • Park, Seung-Hun;Woo, Eung-Je;Kim, Kyung-Soo;Choi, Keun-Ho;Kim, Seung-Tae;Lee, Hee-Cheol;Seo, Jae-Joon;Kim, Hyung-Jin
    • Proceedings of the KOSOMBE Conference
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    • v.1997 no.05
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    • pp.285-289
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    • 1997
  • In this paper, we describe the intrabed and interbed network in a developed patient monitoring system. Intrabed network handles data communication among the main unit of a bedside monitor and parameter modules plugged in it. Interbed network deals with a higher level data communication among many bedside monitors, central stations, DB servers, and clinical workstations. Analyzing the data communication requirements in each stage of the system, we designed the intrabed network based upon RS-485 and HDLC protocol with 1Mbps data rate. Interbed network is designed to utilize the industry standard 10Base-T Ethernet with TCP/IP and UDP protocol. We present the specifications and the performances of the developed data communication networks in the patient monitoring system.

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Development of a Patient Monitoring System Overall Architecture and Specifications (환자모니터링시스템의 개발 : 전체구조 및 기본사양)

  • 우응제;박승훈
    • Journal of Biomedical Engineering Research
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    • v.18 no.1
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    • pp.17-24
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    • 1997
  • We have developed a patient monitoring system including module-based bedside monitors, interbed network, central stations, clinical workstations, and DB servers. A bedside monitor with a color LCD can accommodate up to 3 module cases and 21 different modules. Six different physiological parameters of ECG, respiration, invasive blood pressure, noninvasive blood pressure, body temperature, and arterial pulse oximetry with plethysmoyaph are provided as parameter modules. In a single bedside monitor, modules and a module controller communicate with IMbps data rate through an intrabed network based on RS-485 and HDU protocol. At the same time, it communicates with other bedside monitors and central stations through interbed network based on 1 OMbps Ethernet and TCP/IP protocol. Central stations using 20" color CRT monitors can be connected with many bedside monitors and they display 18 channels of waveforms simultaneously. Clinical workstations are used mainly for the review of patient datE In order to accommodate more advanced data management capabilities such as 24-hour full disclosure, we have developed a relational database server dedicated to the patient monitoring system. Software for bedside monitor, central station, and clinical workstation fully utilizes graphical user interface techniques and all functions are controlled by a rotate/push button on the bedside monitor arid a mouse on the central station and clinical workstation. The entire system satisfies the requirements of AAMI and ANSI standards in terms of electrical safety and performances.nces.

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Interbed Networks in la Patient Monitoring System (환자 모니터링 시스템에서의 통신 방식(II): 인터베드 통신망)

  • 박승훈;우응제;김경수;최근호;김승태
    • Journal of Biomedical Engineering Research
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    • v.18 no.4
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    • pp.381-388
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    • 1997
  • In this paper, we present the design and implementation of the interbed network communication protocol, which links patient monitors, central stations, DB servers, and clinical workstations together in a patient monitoring system. We describe the requirements to be met thor real-time patient monitoring, propose 2 services Patient Locator Service(PL:7) and Remote Patient Monitoring Service( RPMS). PLS provides the information about how many patients are currently being monitored and where they are located, while RPMS allows the doctors to monitor their patients'vital sign in real-time. The messages for the services, their formats and exchange scheme are also presented with a whole picture of how they are implemented. We adopted the object-oriented programming paradigm in all the analysis and design processes. In the experiment performed in a real clinical setting, the services turned out to meet all the requirements needed for real-time patient monitoring.

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Development of a Prototype Patient Monitoring System with Module-Based Bedside Units and Central Stations: Overall Architecture and Specifications (모듈형 환자감시기와 중앙 환자감시기로 구성되는 환자감시시스템 시제품의 개발: 전체구조 및 사양)

  • Woo, E.J.;Park, S.H.;Jun, B.M.;Moon, C.W.;Lee, H.C.;Kim, S.T.;Kim, H.J.;Seo, J.J.;Chae, K.M.;Park, J.C.;Choi, K.H.;Lee, W.J.;Kim, K.S.
    • Proceedings of the KOSOMBE Conference
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    • v.1996 no.05
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    • pp.315-319
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    • 1996
  • We have developed a prototype patient monitoring system including module-based bedside units, interbed network, and central stations. A bedside unit consists of a color monitor and a main CPU unit with peripherals including a module controller. It can also include up to 3 module cases and 21 different modules. In addition to the 3-channel recorder module, six different physiological parameters of ECG, respiration, invasive blood pressure, noninvasive blood pressure, body temperature, and arterial pulse oximetry with plethysmogaph are provided as parameter modules. Modules and a module controller communicate with up to 1Mbps data rate through an intrabed network based on RS-485 and HDLC protocol. Bedside units can display up to 12 channels of waveforms with any related numeric informations simultaneously. At the same time, it communicates with other bedside units and central stations through interbed network based on 10Mbps Ethernet and TCP/IP protocol. Software far bedside units and central stations fully utilizes gaphical user interface techniques and all functions are controlled by a rotate/push button on bedside unit and a mouse on central station. The entire system satisfies the requirements of AAMI and ANSI standards in terms of electrical safety and performances. In order to accommodate more advanced data management capabilities such as 24-hour full disclosure, we are developing a relational database server dedicated to the patient monitoring system. We are also developing a clinical workstation with which physicians can review and examine the data from patients through various kinds of computer networks far diagnosis and report generation. Portable bedside units with LCD display and wired or wireless data communication capability will be developed in the near future. New parameter modules including cardiac output, capnograph, and other gas analysis functions will be added.

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