在医疗体系不断完善的背景下,传统的信息技术系统在医疗资源管理方面缺乏一定的高效性,且处理大量医疗信息数据的能力较差。针对这一问题,笔者提出基于云计算的医院信息技术系统设计。首先,选择Net硬件集成开发环境,采用B/S硬件结构,使...在医疗体系不断完善的背景下,传统的信息技术系统在医疗资源管理方面缺乏一定的高效性,且处理大量医疗信息数据的能力较差。针对这一问题,笔者提出基于云计算的医院信息技术系统设计。首先,选择Net硬件集成开发环境,采用B/S硬件结构,使系统的硬件具备资源部署与调配能力;其次,通过设计挂号管理、门诊管理等功能模块,实现医疗信息的查询与管理;再次,结合JAVA服务器页面(Java Server Pages,JSP)技术与Ajax技术设计信息共享传输层,提高系统内信息数据的传输交换能力;最后,采用SQL Server软件设计系统的信息数据库,实现医疗资源的存储与管理。测试结果表明,该系统在并发访问量较大的情况下,响应时间较短,且更加接近系统的期望测试值。展开更多
We developed an IT (Information Technology) triage system for collecting disaster medical information in real time. FeliCa cards and card readers are used to obtain the number and condition of patients. The system i...We developed an IT (Information Technology) triage system for collecting disaster medical information in real time. FeliCa cards and card readers are used to obtain the number and condition of patients. The system is composed of two elements. First, the number of patients for each triage level and the accepted number of patients in each diagnosis and treatment department are obtained in real time, including response for changing triage level. Second, this information is shared in real time among hospitals, the admim'stration, and residents who are searching for their family. A disaster drill utilizing this system was held at the University of Yamanashi Hospital with 450 participants. From the result of that, the present system could work for those two elements. TRACY was examined its availability and practicability in this drill.展开更多
文摘在医疗体系不断完善的背景下,传统的信息技术系统在医疗资源管理方面缺乏一定的高效性,且处理大量医疗信息数据的能力较差。针对这一问题,笔者提出基于云计算的医院信息技术系统设计。首先,选择Net硬件集成开发环境,采用B/S硬件结构,使系统的硬件具备资源部署与调配能力;其次,通过设计挂号管理、门诊管理等功能模块,实现医疗信息的查询与管理;再次,结合JAVA服务器页面(Java Server Pages,JSP)技术与Ajax技术设计信息共享传输层,提高系统内信息数据的传输交换能力;最后,采用SQL Server软件设计系统的信息数据库,实现医疗资源的存储与管理。测试结果表明,该系统在并发访问量较大的情况下,响应时间较短,且更加接近系统的期望测试值。
文摘We developed an IT (Information Technology) triage system for collecting disaster medical information in real time. FeliCa cards and card readers are used to obtain the number and condition of patients. The system is composed of two elements. First, the number of patients for each triage level and the accepted number of patients in each diagnosis and treatment department are obtained in real time, including response for changing triage level. Second, this information is shared in real time among hospitals, the admim'stration, and residents who are searching for their family. A disaster drill utilizing this system was held at the University of Yamanashi Hospital with 450 participants. From the result of that, the present system could work for those two elements. TRACY was examined its availability and practicability in this drill.
