摘要
该实验系统包括基带部分、射频前端、天线和控制计算机,每部分均采用模块化设计,每个功能模块可替换。采用积木式搭建方式,既可构成一个完整的无线通信系统,开展无线通信系统实验,也可构成一个独立的子系统,开展相应的实验,支持多门实验课程。该系统采用网络化模式,支持远程实验教学,通过互联网可随时、随地开展实验,不受时间、地点和实验内容的限制。功能模块可通过网络随时加载二次开发算法,支持二次开发实验。
The experimental system consists of baseband, RF front-end, antenna and control computer. Each part is modularized and each function module can be replaced. By building blocks, not only a complete wireless communication system can be constructed to carry out experiments on wireless communication systems, but also an independent subsystem can be established to conduct corresponding experiments and support multiple experimental courses. This system adopts the network mode to support remote experiment teaching. The experiment can be carried out anytime and anywhere through the Internet, without the limitation of time, place and experiment content. Function modules can load secondary development algorithms through the network at any time to support secondary development experiments.
作者
魏建军
刘乃安
李晓辉
黑永强
唐军
WEI Jianjun;LIU Naian;LI Xiaohui;HEI Yongqiang;TANG Jun(School of Telecommunications Engineering,Xidian University,Xi’an 710071,China)
出处
《实验技术与管理》
CAS
北大核心
2019年第11期68-70,93,共4页
Experimental Technology and Management
基金
国家自然科学基金面上项目(61876143)
西安电子科技大学新实验开发与新实验设备研制重点攻关项目“虚拟一体无线通信系统综合实验平台研制”
关键词
无线通信
实验系统
虚实一体
积木式搭建
远程实验
wireless communication
experimental system
virtual-real integration
building block construction
remote experiment
