多媒体信息处理实验室
Multimedia Information Processing Laboratory
多媒体技术是对图像、声音和动态视频等多种媒体进行处理的技术。多媒体通信是多媒体技术和通信技术的结合,它将计算机的交互性、通信的分布性和电视的实时性融为一体。通信的信源和信道信息都需要经历各种处理,包括信息变换、压缩、加密、调制、纠错编码等,多媒体通信与信息处理技术相互促进和融合。本实验室致力于发展多媒体通信和信息处理技术相关的理论及应用研究。
本实验室负责数字图像处理、高光谱解混、遥感图像的融合与分类、生物医学图像解译与分析、微弱信号的检测与处理、视频图像运动目标检测、计算机视觉三维图像重构、网络编码与传输技术等研究、应用及开发工作。
本实验室隶属电子信息工程与通信工程专业共享实验室,主要用于电子信息工程、通信工程和电子科学与技术等专业的课程实验任务,承担多媒体与信息处理方向的相关实训、实践任务,并作为本科生研究生的大创/大赛实践基地,教师部分课题研究基地等。
主要测试设备和仪器有:数字电视实验台、高性能GPU加速云服务器、高性能多媒体计算机若干。
本实验室开设课程和专业方向有:数字图像处理,多媒体与流媒体技术,多媒体信息处理,智能信息处理,数字电视,图像处理与数字电视等。
The laboratory is responsible for the research, application and development of digital image processing, hyperspectral unmixing, data fusion and classification of electronic information engineering, biomedical image interpretation and analysis, weak signal detection and processing, video image moving target detection, 3D image reconstruction in computer vision, network coding and transmission technology.
This laboratory belonging to the majors of Electronic Information Engineering and Communication Engineering, which is mainly used in electronic information engineering, communication engineering and electronic science and technology and other professional courses experimental tasks, the direction of the multimedia and information processing related practice, practice, and as a practice base for undergraduate/graduate students, and a research base for teachers.
The main test equipments and instruments include the test-bed of digital TV, high-performance GPU-accelerated cloud server, and a number of high-performance multimedia computers.
The laboratory offers courses and specialized directions including digital image processing, multimedia and streaming media technology, multimedia information processing, intelligent information processing, digital television, image processing and digital television, etc.
通信网络与系统仿真实验室
Communication Network and System Simulation Laboratory
随着现代通信系统的飞速发展,计算机仿真已经成为分析和设计通信系统的主要工具,在通信息同的研发和教学中具有重要意义。实际的通信系统是一个功能结构相当复杂的系统,对这个系统做出的改变都可能影响整个系统的性能与稳定,在对原有的系统做出改进或设计一个新系统之前,通常需要对系统进行仿真。本实验室为学习仿真软件,弥补硬件实验缺陷,提高学生的自主学习能力,实现通信基础理论与计算机仿真技术相结合的实践教学而设计。
本实验室主要负责利用各类通信电子设计仿真软件开展通信网络仿真,通信电路与系统的仿真,虚拟仿真实验室,虚拟通信设备等相关方向的研究与开发任务,承担各类虚拟通信系统的构建及课题研究任务。
本实验室属于通信工程专业实验室,主要用于电子信息工程、电子科学与技术和通信工程等专业的课程实验任务,承担通信仿真软件的使用与系统设计实践任务,并作为本科生研究生的大创大赛实践基地,教师部分课题研究基地等。承担大学生创新竞赛实践实训、PCB工艺认识、SMT工艺、相应培训认证及竞赛等实践教学任务。
本实验室开设课程和专业方向有:SystemView软件,通信网仿真软件,通信电子系列软件,通信原理软件,高频电子设计软件,网络规划与设计软件等。
This laboratory is mainly responsible for the research and development of communication network simulation, communication circuit and system simulation, virtual simulation laboratory, virtual communication equipment and other related directions, and undertakes the
construction of various virtual communication systems and subject research tasks.
The laboratory belongs to communication engineering laboratory, is mainly used in electronic and information engineering, electronic science and technology and experiment tasks, the courses of communication engineering, etc. It undertakes communication and the use of simulation software system design practice tasks, and it is as a big a series of undergraduate graduate practice base, teachers' part of the research base and so on. It also undertakes the practical teaching tasks of college students' innovation competition practice training, PCB process understanding, SMT process, corresponding training certification and competition.
This laboratory offers courses and professional directions: SystemView software, communication network simulation software, communication electronics series software, communication principle software, high-frequency electronic design software, network planning and design software, etc.
移动通信系统实验室
Mobile Communication System Laboratory
移动通信(Mobile communications)是以无线电波为载体进行信息传输,用于连接移动用户与固定用户之间或移动用户之间的通信方式。移动通信向着宽带化方向发展,与无线通信技术的移动化相融合,形成无处不在的泛在网络,是未来移动通信发展的必然趋势。随着第五代移动通信系统(5G)的持续推进,极大地促进了车联网、工业物联网等融合领域的发展,成为推动社会经济发展的重要基础平台,展示出物物互联的美好愿景。
本实验室主要负责移动通信传输原理分析研究及系统设计与测试任务,承担移动通信系统设计应用、小基站研究设计、室内分布系统设计与测试、5G系统关键技术等研究与开发任务。
本实验室属于通信工程专业实验室,主要承担通信工程、电子信息工程等专业的课程实验任务,承担5G通信系统、无线移动通信电路系统设计与测试方向的相关课程设计、实习实训任务,并作为本科生研究生的各类创新大赛实践基地,教师部分课题研究基地等。
主要实验测试设备和仪器有:移动通信实验系统、数字存储示波器、频谱分析仪、网络分析仪、误码分析仪;测试设备及实验系统主要来自南京润众、是德科技、台湾固玮、中电41所等。
本实验室开设课程与方向:移动通信,卫星通信,微波通信,4G,5G新技术,新一代移动通信。
This laboratory is mainly responsible for the analysis and research of mobile communication transmission principles, system design and test tasks. And it also undertakes research and development tasks such as design and application of mobile communication systems, research and design of small base stations, design and testing of indoor distribution systems, and key technologies of the fifth generation mobile communication system(5G).
This laboratory belongs to the professional laboratory of the Communication Engineering major. It mainly undertakes the experimental tasks of Communication Engineering, Electronic Information Engineering and other majors, and also undertakes curriculum design and practical training tasks related to 5G communication system and wireless mobile communication circuit system design and testing. It also serves as a practice base for various innovation contests for undergraduates and graduate students, as well as a research base for teachers on some topics.
This laboratory contains some major experimental test equipments and instruments, such as mobile communication experimental system, digital storage oscilloscope, spectrum analyzer, network analyzer and error code analyzer.The devices mentioned above mainly come from Nanjing Runzhong, Keysight Technology, Taiwan Guwei, CLP 41 and other companies.
The courses and directions this laboratory offers are mobile communications, satellite communications, microwave communications,the fourth generation mobile communication system(4G),the new fifth generation mobile communication system(5G), and a new generation of mobile communications.
光纤通信与传输实验室
Fiber Communication and Transmission Laboratory
光纤通信(Optical fiber Communication)是利用光信号可在光纤和光缆中传播的一种应用最普遍的有线通信方式。光纤通信系统包括光发射单元、光传输单元和光接收单元,由光传输设备、光接入设备、光无源器件和网管软件组成,是用于实现5G通信网络的重要组成部分。
本实验室主要负责光纤通信理论、光纤通信系统、光网络、光纤电缆等有线传输、光通信器件与设备研发等相关方向的实践和研究任务。
本实验室属通信工程专业实验室,主要用于通信工程和电子信息工程等专业的课程实验任务,承担光纤通信与有线传输等方向的相关实训、实践任务,并作为本科生研究生的大创大赛实践基地,教师部分课题研究基地等。
主要测试设备和仪器有:光纤熔接机,光时域反射仪,光纤通信实验箱,光功率计,光万用表等。
本实验室目前开设课程和专业方向有:光纤通信原理,光网络,数字电视(广播电视系统),现代传输技术(SDH原理),有线传输技术等。
This laboratory is a professional communication engineering laboratory. It is mainly used for the course experiment tasks of communication engineering and electronic information engineering. It undertakes the related practical training and practice tasks in the fields of optical fiber communication and cable transmission. It is also an practice base of the undergraduate and graduate's innovation competition and the research base of some subjects for teachers.
The main testing equipments and instruments are the optical fiber fusion machine, the optical time domain reflectometer, the optical fiber communication experiment box, the optical power meter, the optical multimeter, etc.
At present, the courses and major directionsour that our laboratory offers are optical fiber communication principle, optical network, digital television (radio and television system), modern transmission technology (SDH principle), cable transmission technology, etc.
藤仓40光纤熔接机照片
安立光时域反射仪照片
自主研发的光纤通信原理实验箱
PON光网络
通信网络与规划实验室
Communication Network and Planning Laboratory
通信网络是由多个系统、设备、部件组成的复杂庞大的整体,必须按照国家设计标准和行业规范进行合理的规划及优化,使其既能满足各项性能指标要求又能减少投资,安全稳定运行。短距离无线通信网络技术的研究与发展,能够提升通信设备的工作效率,同时也能够满足不同层次用户对应的需求,可支持动态组网并灵活实现与上层网络的信息交互,拥有多样化的作用与功能。本实验室致力于发展短距离无线通信技术及其组网技术的基本理论和方法的研究。
本实验室主要负责5G网络、光网络、程控交换网络、通用无线网络的设计仿真与规划,以及各种短距离无线通信网络,包括:RFID、WiFi、蓝牙、红外、UWB、ZigBee等无线组网,承担该方向的实践和研究任务。
本实验室属通信工程专业实验室,主要用于通信工程和电子信息工程等专业的课程实验任务,承担有线和无线网络组网交换等方向的相关实训、实践任务,并作为本科生研究生的大创大赛实践基地,教师部分课题研究基地等。
主要测试设备和仪器有:程控交换机,光网络系统,各类无线网络、数字存储示波器,误码分析仪,射频功率计,频谱分析仪,射频信号发生器,矢量网络分析仪;各种无线通信模块RFID、WiFi、蓝牙、ZigBee、NB-IOT、Lora等;Intel5300无线网卡,可以实现802.11物理层信号的采集。
本实验室开设课程:计算机通信与网络,通信网理论与规划,交换技术,宽带网基础,无线网络与移动计算,通信网络优化等。
The laboratory is mainly responsible for the learning of various short-range wireless communication technology related knowledge, including RFID, WiFi, Bluetooth, infrared, UWB, ZigBee, etc., building wireless communication network according to various wireless communication technology, and conducting relevant data collection, transmission, monitoring and other tests, to understand the basic knowledge of network construction and development from the perspective of practice.
The laboratory is mainly responsible for the design, simulation and planning of 5g network, optical network, program-controlled switching network and general wireless network, as well as various short-distance wireless communication networks, including RFID, WiFi, Bluetooth, infrared, UWB, ZigBee and other wireless networks, and undertakes the practice and research tasks in this direction.
This laboratory is a professional laboratory of communication engineering, which is mainly used for the course experiment tasks of communication engineering and electronic information engineering. It undertakes the related practical training and practical tasks in the direction of wired and wireless network networking and exchange, and serves as the practice base of undergraduate graduate students' innovation competition, part of teachers' research base, etc.
The main test equipments and instruments include SPC exchange, optical network system, various wireless networks,digital storage oscilloscope, error code analyzer, RF power meter, spectrum analyzer, RF signal generator, vector network analyzer; Various wireless communication modules RFID, WiFi, Bluetooth, ZigBee, NB-IoT, Lora, etc.; intel5300 wireless network card can realize the collection of 802.11 physical layer signals.
This laboratory offers courses: computer communication and network, communication network theory and planning, switching technology, broadband network foundation, wireless network and mobile computing, communication network optimization, etc.
实验室环境
通信模块
