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基于数字孪生的医疗设备无人调配中心管理系统设计OA

Design of digital twin-based management system for unmanned medical equipment deployment centers

中文摘要英文摘要

目的:设计基于数字孪生的医疗设备无人调配中心管理系统,以实现医疗设备信息化、高效化动态管理.方法:医疗设备无人调配中心管理系统采用物理层、传输层、孪生层、应用层4层架构设计.其中,物理层部署物联网模块以采集设备在位状态、充电数据及环境参数,主要包括蓝牙定位系统、充电监测与控制单元和环境感知模块3个部分;传输层基于PyCharm平台、采用Python语言构建传输控制协议/网际协议通信架构,实现客户端与服务器端数据的可靠传输;孪生层通过MySQL数据库融合动静态数据构建数字孪生体;应用层通过整合Django框架、山海鲸可视化平台及微信开发者工具,开发网页端、数字孪生大屏与微信小程序.结果:采用该系统可实现医疗设备的信息与状态查询、充断电控制及环境监测,显著提升了医疗设备资源的共享与流转效率,且大幅降低了医疗设备管理部门的人力负担与操作成本.结论:该系统显著提升了无人环境下的医疗设备监测能力,提高了医疗设备管理的效率,为医疗设备的精细化、高效化管理提供了可靠的技术支持.

Objective To design a digital twin-based management system for unmanned medical equipment deployment centers,aiming to enable informatized,efficient and dynamic management of medical equipment.Methods A digital twin-based management system for unmanned medical equipment deployment centers was designed with a four-layer architecture comprising a physical layer,a transport layer,a digital twin layer and an application layer.The physical layer incorporated IoT modules to collect device presence status,charging data and environmental parameters,which was composed of a Bluetooth positioning system,a charging monitoring and control unit and an environmental sensing module;the transport layer based on PyCharm platform employed Python to construct a transmission control protocol/Internet protocol communication architecture,ensuring reliable data transmission between the client and the server;the digital twin layer integrated dynamic and static data via a MySQL database to construct a digital twin;the application layer developed a web interface,a digital twin dashboard and a WeChat mini-program with the Django framework,the Shanhaijing visualization platform and WeChat developer tools.Results The system enabled users to query medical equipment information and status,control power supply and disconnection and monitor environmental conditions,which significantly improved the efficiency of medical equipment resource sharing and circulation and reduced the workload and operational costs for equipment management departments.Conclusion The system significantly enhances medical equipment monitoring capabilities in unmanned environments,improves the efficiency of medical equipment management and provides reliable technical support for precise and efficient medical equipment management.[Chinese Medical Equipment Journal,2026,47(3):54-60]

纪志峰;羊月祺;刘宾

南京医科大学第一附属医院,南京 210029||南京医科大学,南京 211166南京医科大学第一附属医院,南京 210029南京医科大学,南京 211166

医药卫生

数字孪生医疗设备无人调配中心医疗设备管理智慧医院

digital twinmedical equipmentunmanned deployment centermedical equipment managementsmart hospital

《医疗卫生装备》 2026 (3)

54-60,7

10.19745/j.1003-8868.2026042

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