光通信实验室中的共享模式研究
发布时间:2019-01-18 20:42
【摘要】:随着科学技术的发展,物联网技术越来越多地影响着我们的生活,并为人所认识与重视。在光通信实验室中,物联网技术还有很大的发展空间,并没有得到充分的使用,这制约了实验室在远程交互、大数据应用方面的发展。因此,在光通信实验室的现有互联网条件下进行研究,以构建新的共享模式为目的,搭建一套光学实验室物联网系统具有重要意义。本论文以光通信实验室中的共享模式作为课题进行研究,设计一套光学实验室物联网系统。该系统主要可以分为以下两个部分:(1)基于RFID的实验室仪器管理系统:针对光学实验室的特点,通过RFID技术与互联网技术联合使用,对实验室仪器进行管理,将实验室器材的转移情况按照时间、地点等信息进行记录入数据库;(2)光学仪器设备云系统:系统中所有的光学仪器通过光纤连接至控制中心,使得研究人员能够在自己的办公室内通过光纤接入至控制中心,并接入自己的光源,或者使用备用光源,然后通过互联网从远端操控设备云中的光学仪器,进行研究。论文创新点在于以下两点:(1)用户使用光学仪器的模式从过去的一个用户使用一台光学仪器变为多个用户共享多台光学仪器,即由N个1-1模式变为N-N模式,大大提升了光学仪器的共享效率,并节约了成本;(2)在共享系统中使用B/S模式,而不是使用传统的C/S模式,客户端不需要维护,只需在服务端升级即可。
[Abstract]:With the development of science and technology, the Internet of things technology is more and more affecting our life, and has been recognized and valued. In the optical communication laboratory, the technology of Internet of things still has great development space, and has not been fully used, which restricts the development of remote interaction and big data application in the laboratory. Therefore, it is of great significance to build a set of optical laboratory Internet of things system for the purpose of constructing a new shared mode under the existing Internet conditions of optical communication laboratory. In this paper, the shared mode in optical communication laboratory is studied, and a set of optical laboratory Internet of things system is designed. The system can be divided into the following two parts: (1) the laboratory instrument management system based on RFID: according to the characteristics of optical laboratory, the laboratory instrument is managed through the joint use of RFID technology and Internet technology. Record the transfer of laboratory equipment into the database according to time, location and other information; (II) Optical instrumentation cloud systems: all optical instruments in the system are connected to the control center through optical fibers, enabling researchers to access the control center through optical fibers in their own offices and to access their own light sources. Or use a backup light source, and then study the optical instruments from the remote control device cloud over the Internet. The innovation of this paper lies in the following two aspects: (1) the mode of user using optical instrument has changed from one user using one optical instrument to more than one user sharing multiple optical instruments, that is, from N 1-1 mode to N-N mode. The sharing efficiency of optical instruments is greatly improved and the cost is saved. (2) the B / S mode is used in the shared system, instead of the traditional C / S mode, the client does not need to maintain, only need to upgrade in the server.
【学位授予单位】:武汉邮电科学研究院
【学位级别】:硕士
【学位授予年份】:2017
【分类号】:TN929.1;TP391.44;TP311.52
[Abstract]:With the development of science and technology, the Internet of things technology is more and more affecting our life, and has been recognized and valued. In the optical communication laboratory, the technology of Internet of things still has great development space, and has not been fully used, which restricts the development of remote interaction and big data application in the laboratory. Therefore, it is of great significance to build a set of optical laboratory Internet of things system for the purpose of constructing a new shared mode under the existing Internet conditions of optical communication laboratory. In this paper, the shared mode in optical communication laboratory is studied, and a set of optical laboratory Internet of things system is designed. The system can be divided into the following two parts: (1) the laboratory instrument management system based on RFID: according to the characteristics of optical laboratory, the laboratory instrument is managed through the joint use of RFID technology and Internet technology. Record the transfer of laboratory equipment into the database according to time, location and other information; (II) Optical instrumentation cloud systems: all optical instruments in the system are connected to the control center through optical fibers, enabling researchers to access the control center through optical fibers in their own offices and to access their own light sources. Or use a backup light source, and then study the optical instruments from the remote control device cloud over the Internet. The innovation of this paper lies in the following two aspects: (1) the mode of user using optical instrument has changed from one user using one optical instrument to more than one user sharing multiple optical instruments, that is, from N 1-1 mode to N-N mode. The sharing efficiency of optical instruments is greatly improved and the cost is saved. (2) the B / S mode is used in the shared system, instead of the traditional C / S mode, the client does not need to maintain, only need to upgrade in the server.
【学位授予单位】:武汉邮电科学研究院
【学位级别】:硕士
【学位授予年份】:2017
【分类号】:TN929.1;TP391.44;TP311.52
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