基于移动客户端的健康监测子系统设计与实现
发布时间:2019-04-25 07:50
【摘要】:我国有高血压家庭大多使用传统电子血压计,而血压计的使用过程中的易用性、数据传输性、医患之间的数据共享都存在急需改进完善之处,导致患者发病风险提高、就医不及时、额外医疗费用增加等情况。随着智能手机的普及发展,可以作为一个外部传输和数据集成的平台,提供检测功能和用户服务,并实现数据共享交互,接入更多的医疗资源和监控服务业务。本文以血压监测为研究入口,以远程医疗、物联网各类应用技术为研究对象,通过学习国内外文献资料、预研可能的技术、试验并筛选合适的技术等手段,设计并实现移动终端健康监测系统。本文重点研发面向慢病人群的手机终端健康监测系统,建立完善的移动终端健康服务平台体系架构,开发基于物联网技术的远程医疗以及健康监测终端设备;实现远程医疗活动基础信息的采集和传递,满足个人的基本医疗、慢病管理;实现健康监测、健康数据智能分析、健康指导健康信息检索等功能;实现对远程慢病患者的重点生理检测指标日常监测、智能化健康评估,对个体及群体的健康危险因素进行全面管理,并将便携式移动终端产品及服务带入慢病患者的健康服务中。本文系统实现两个子系统,即手机应用血压管理子系统、云端个人血压管理子系统,健康监测手机应用的功能主要包括用户注册页面、用户登录页面、蓝牙连接血压计页面、查看健康记录页面,云平台实现监测数据的接收和前台显示,对于指标异常(即不在标准值范围内的检测值)进行提醒和健康预警。逻辑功能包括健康传感器、健康监测手机APP、平台数据中心、健康检测系统四部分,辅以用户安全隐私防护框架,加强用户认证、数据接入、安全存储的管理,制定完善的安全策略。技术亮点包括:一是基于终端设备医疗健康中间件技术,为上层应用开发提供统一的数据处理、服务调度接口,为解决以后扩展不同生理信息采集设备在通信协议、数据格式等方面的差异;二是基于Android平台的开发技术难点,突出设计符合用户使用习惯的界面设计,兼顾适配不同机型;同时关注向后兼容,适应不同版本OS;提升系统可拓展性及架构弹性,实现对未来需求的快速响应支持。本系统以用例为单位,对程序进行测试,统计用例BUG数及千行代码缺陷密度,经过测试数据验证,系统功能可以满足要求,可以运用至实际生产。本课题研究内容扩展性较好,对个体及群体的健康危险因素进行全面管理,具有较好应用前景。
[Abstract]:In our country, the traditional electronic sphygmomanometer is mostly used in the family of hypertension, and the ease of use, data transmission and data sharing between doctors and patients in the process of use of sphygmomanometer are in urgent need of improvement and perfection, which leads to the increase of patients' risk of onset. Medical treatment is not timely, additional medical costs increased and so on. With the popularity and development of smart phones, it can be used as an external transmission and data integration platform to provide detection functions and user services, and to achieve data sharing and interaction, access to more medical resources and monitoring services. This article takes blood pressure monitoring as the research entrance, takes the telemedicine, the Internet of things application technology as the research object, through the study domestic and foreign literature material, prestudies the possible technology, the experiment and the screening suitable technology and so on means, Design and implement the mobile terminal health monitoring system. This paper focuses on the development of mobile phone terminal health monitoring system for people with chronic illness, the establishment of a perfect mobile terminal health service platform architecture, the development of telemedicine and health monitoring terminal equipment based on Internet of things technology; To realize the collection and transmission of basic information of telemedicine activities, to satisfy the basic medical treatment of individuals and the management of chronic diseases, to realize the functions of health monitoring, intelligent analysis of health data, health information retrieval of health guidance and so on. To realize daily monitoring, intelligent health assessment, and comprehensive management of health risk factors of individuals and groups of patients with long-range chronic diseases. Portable mobile terminal products and services will be brought into the health services of patients with chronic illness. This system realizes two subsystems, namely mobile phone application blood pressure management subsystem, cloud personal blood pressure management subsystem, health monitoring mobile phone application function mainly includes user registration page, user login page, Bluetooth connection sphygmomanometer page, In view of the health record page, the cloud platform implements the receiving and foreground display of monitoring data, reminders and health warnings of indicator anomalies (that is, those values that are not within the standard value range). Logic functions include health sensors, health monitoring mobile phone APP, platform data center, health detection system four parts, supplemented by user security and privacy protection framework, strengthen user authentication, data access, security storage management. Develop a sound security policy. Technical highlights include: first, based on the terminal equipment medical and health middleware technology, to provide a unified data processing for upper application development, service scheduling interface, in order to solve the future expansion of different physiological information acquisition equipment in the communication protocol, Differences in data formats and other aspects; The second is the difficulty of developing technology based on Android platform, which emphasizes the interface design which accords with the user's habit of using and adapts to different models. At the same time, it pays attention to backward compatibility and adapts to different versions of OS;. Improve system scalability and architecture elasticity to achieve rapid response to future needs support. This system takes the use case as the unit, carries on the test to the program, statistics the case BUG number and the thousand lines code defect density, after the test data verification, the system function can satisfy the request, can apply to the actual production. The research content of this paper has a good expansibility, and the health risk factors of individuals and groups are managed in an all-round way, which has a good application prospect.
【学位授予单位】:吉林大学
【学位级别】:硕士
【学位授予年份】:2016
【分类号】:TP311.52
本文编号:2464921
[Abstract]:In our country, the traditional electronic sphygmomanometer is mostly used in the family of hypertension, and the ease of use, data transmission and data sharing between doctors and patients in the process of use of sphygmomanometer are in urgent need of improvement and perfection, which leads to the increase of patients' risk of onset. Medical treatment is not timely, additional medical costs increased and so on. With the popularity and development of smart phones, it can be used as an external transmission and data integration platform to provide detection functions and user services, and to achieve data sharing and interaction, access to more medical resources and monitoring services. This article takes blood pressure monitoring as the research entrance, takes the telemedicine, the Internet of things application technology as the research object, through the study domestic and foreign literature material, prestudies the possible technology, the experiment and the screening suitable technology and so on means, Design and implement the mobile terminal health monitoring system. This paper focuses on the development of mobile phone terminal health monitoring system for people with chronic illness, the establishment of a perfect mobile terminal health service platform architecture, the development of telemedicine and health monitoring terminal equipment based on Internet of things technology; To realize the collection and transmission of basic information of telemedicine activities, to satisfy the basic medical treatment of individuals and the management of chronic diseases, to realize the functions of health monitoring, intelligent analysis of health data, health information retrieval of health guidance and so on. To realize daily monitoring, intelligent health assessment, and comprehensive management of health risk factors of individuals and groups of patients with long-range chronic diseases. Portable mobile terminal products and services will be brought into the health services of patients with chronic illness. This system realizes two subsystems, namely mobile phone application blood pressure management subsystem, cloud personal blood pressure management subsystem, health monitoring mobile phone application function mainly includes user registration page, user login page, Bluetooth connection sphygmomanometer page, In view of the health record page, the cloud platform implements the receiving and foreground display of monitoring data, reminders and health warnings of indicator anomalies (that is, those values that are not within the standard value range). Logic functions include health sensors, health monitoring mobile phone APP, platform data center, health detection system four parts, supplemented by user security and privacy protection framework, strengthen user authentication, data access, security storage management. Develop a sound security policy. Technical highlights include: first, based on the terminal equipment medical and health middleware technology, to provide a unified data processing for upper application development, service scheduling interface, in order to solve the future expansion of different physiological information acquisition equipment in the communication protocol, Differences in data formats and other aspects; The second is the difficulty of developing technology based on Android platform, which emphasizes the interface design which accords with the user's habit of using and adapts to different models. At the same time, it pays attention to backward compatibility and adapts to different versions of OS;. Improve system scalability and architecture elasticity to achieve rapid response to future needs support. This system takes the use case as the unit, carries on the test to the program, statistics the case BUG number and the thousand lines code defect density, after the test data verification, the system function can satisfy the request, can apply to the actual production. The research content of this paper has a good expansibility, and the health risk factors of individuals and groups are managed in an all-round way, which has a good application prospect.
【学位授予单位】:吉林大学
【学位级别】:硕士
【学位授予年份】:2016
【分类号】:TP311.52
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相关期刊论文 前3条
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