摘要
为了解决人工办理业务带来的时间拖延和设备空间占用问题,高校新设计的设备报废系统采用自助服务和业务智能预排算法。系统中的智能预排算法实现了自助回收点和暂存柜的空间预排,用户自助回收的时间预排,管理员集中回收时间的预排等功能。在系统硬件层中,通过校园无线网、校园有线网、移动网络等多种通信技术实现了自助机、暂存柜、手持移动终端等多种硬件的实时互联。软件层和数据层对使用的内外部数据给出了定义和分类,并确定了多个软件功能模块。所设计的自助设备报废系统能够为用户及时预排设备回收业务、合理安排回收空间,既提高了高校师生业务办理的自助化、智能化程度,也减轻了高校管理人员的工作量。
The self-service and business intelligent pre.scheduling algorithm is used in the new designed equipment scrapping system of college to solve the problems of time delay and space occupation caused by the manual business handing.The intelligent pre.scheduling algorithm used in the system can realize the functions such as space pre-scheduling of self-service recycle points and temporary storage cabinets,time pre-scheduling of users′self.service recycle and administrators′centralized recycle.In the system hardware layer,the real-time interconnection of self-service machine,temporary storage cabinets and handheld mobile terminals are realized by means of the communication technologies of campus wireless network,campus wired network and mobile network.In the system software layer and data layer,the definition and classification of the used inner and outer data are given,and multiple software function modules are determined.The designed self.service equipment scrapping system can pre-schedule the equipment scrapping business in real time and arrange the recycle space reasonably for users,improve the self-service performance and intellectualization of the business handling of college teachers and students,and reduce the workload of college administrators.
作者
陈佳
张继霞
刘连忠
聂浩
田恩义
CHEN Jia;ZHANG Jixia;LIU Lianzhong;NIE Hao;TIAN Enyi(Department of Campus Planning,Construction and Asset Management,Beihang University,Beijing 100191,China;Department of Laboratory & Equipment Management,Beijing Institute of Technology,Beijing 100181,China;School of Computer Science and Engineering,Beihang University,Beijing 100191,China)
出处
《现代电子技术》
北大核心
2019年第7期129-132,144,共5页
Modern Electronics Technique
关键词
系统设计
空间预排算法
时间预排算法
硬件架构
软件设计
数据分析
system design
space pre-scheduling algorithm
time pre-scheduling algorithm
hardware architecture
software design
data analysis
