The Department of Electronic Engineering, School of Electronic Information and Electrical Engineering, Shanghai Jiaotong University has two first-class disciplines, namely "Information and Communication Engineering" and "Electronic Science and Technology", both of which have the right to confer doctoral degrees and have postdoctoral mobile stations. The four two disciplines are communication and information system, signal and information processing, circuit and system, electromagnetic field and microwave technology. Among them, communication and information system and electromagnetic field and microwave technology are national key disciplines.
The main research fields involved in the Department of Electronic Engineering are image communication, mobile communication, optical fiber communication, computer communication and network security, integrated circuit design, microwave RF circuit and antenna technology, signal processing, electronic measurement technology and so on. It has the State Key Laboratory of Regional Optical Fiber Communication Network and New Optical Communication System, Shanghai Key Laboratory of Information Security Integrated Management Technology Research and Shanghai Key Laboratory of Digital Media Processing and Transmission. Established joint research institutes and laboratories with many well-known enterprises at home and abroad, such as Shanghai Jiaotong University-Microsoft Joint Research Institute, Shanghai Jiaotong University -IBM Joint Research Institute, Shanghai Jiaotong University-Bell Communication and Network Joint Laboratory, Shanghai Jiaotong University-Samsung Electronics Joint Laboratory, Shanghai Jiaotong University-Lee Tae Joint Laboratory, etc.
The Department of Electronic Engineering formulates and implements scientific research and teaching plans around the cutting-edge technologies in the information field at home and abroad, the needs of national economic construction and the development and construction goals of disciplines. It has undertaken a number of major and key projects of the National Natural Science Foundation, major projects of the National 863 Program, key pre-research projects of national defense, major research projects of the Ministry of Science and Technology, and international cooperative research projects, and achieved a number of high-level scientific research achievements with independent intellectual property rights. Focus on solving the key technologies and processes of applying scientific research results to national economic construction. Many scientific research achievements have been transformed into social productive forces, which have made important contributions to national economic development and local economic construction.
Composition of the system
Institute of modern communication
Institute of wireless communication technology
Institute of image communication
Institute of optical fiber communication technology
Institute of signal processing and systems
Institute of image communication
Number of visits: 2373 1 Publisher: System Administrator Date: 2006-09-1413: 24: 39.
The Institute of Image Communication and Information Processing of Shanghai Jiaotong University was established in 1998, and is dedicated to the technical research of digital HDTV system, advanced source and channel coding, wireless video transmission, network multimedia information processing, ASIC chip design and so on. Professor Zhang Wenjun, the director, was the head of the national high-definition television project, the first batch of Yangtze River distinguished professor in the Ministry of Education, and now he is the vice president of Shanghai Jiaotong University.
The Institute of Image Communication is the supporting unit of Shanghai Digital Technology Center jointly established by Shanghai Science and Technology Commission and Shanghai Jiaotong University. It is the supporting unit and leading unit of the first online cooperative research center of digital technology in colleges and universities of the Ministry of Education. It is also the supporting unit of Shanghai Digital TV Joint Laboratory and Shanghai Key Laboratory-Digital Media Processing and Transmission Laboratory, and the affiliated unit of Shanghai Image and Graphics Society. It belongs to the first-class discipline of information and communication engineering, enrolls two doctoral students, master of engineering and master of engineering from two disciplines (communication and information system, signal and information processing), and has a first-class postdoctoral mobile station.
At present, the School of Image Communication has more than 30 faculty members, including 6 professors and 9 associate professors, who are studying for graduate students, including more than 200 doctors, masters and masters in engineering. It has a solid research foundation in digital TV broadcasting and broadband wireless image transmission, pervasive computing and processing of digital media, network multimedia, production and application of digital media content, chips and systems. In recent years, he has published a large number of academic papers, organized an annual international forum on digital TV and wireless multimedia technology at the Industry Fair, and hired dozens of internationally renowned scholars and professors as visiting professors and researchers.
Image Communication Institute has long been engaged in the research of key technologies and equipment such as video and audio compression coding algorithm, system, software and hardware, and is one of the main research forces in the field of digital TV broadcasting and digital media processing and transmission in China. /kloc-in the past 0/0 years, the Institute of Image Communication has completed more than 30 national key scientific and technological projects, natural fund projects and 863 projects, and won 2 second prizes for national scientific and technological progress and 0/3 provincial and ministerial-level scientific and technological awards. Among them, the National HDTV General Group led by Professor Zhang Wenjun completed the functional prototype of the first generation of digital HDTV independently developed in China in 1998, and the second generation system completed in 1999 successfully carried out the live HDTV test for the 50th anniversary celebration of the National Day, creating a new situation of digital TV research and development in China. The overall performance of the digital TV single-carrier terrestrial broadcast transmission system ADTB-T proposed by Jiaotong University is better than the ATSC standard in the United States and the DVB-T standard in Europe, which breaks through the international problems of single carrier in high-speed mobile, large-capacity reception and single-frequency networking and reaches the international leading level. Significant progress has been made in key technologies such as digital TV middleware, machine-card separation and SOC chip; Important progress has been made in 3TNet network streaming media and new generation video coding and decoding technology, digital media content production, networked nonlinear editing and so on.
Institute of optical fiber communication technology
Number of visits: 18267 Publisher: System Administrator Date: 09-1413: 29:15.
State key laboratory of regional optical fiber communication network and new optical communication system
Lab home page:
The State Key Laboratory of "Regional Optical Fiber Communication Network and New Optical Communication System" was approved by the State Planning Commission and the State Education Commission. Relying on Shanghai Jiaotong University and Peking University, the State Education Commission (Ji Jiao 19968) approved the laboratory to be officially opened for operation at home and abroad on March 201year 19968.
The laboratory is located on floor 0/7 of Haoran High-tech Building/KLOC of Shanghai Jiaotong University, with an area of about 580 square meters. Mainly relying on the Institute of Optical Fiber Technology of the School of Electronic Information and the Institute of Modern Photonics of the Department of Applied Physics of the School of Science. The laboratory has an academic committee composed of famous experts and scholars at home and abroad, including Dr. Tingye Li, a famous scholar and academician of the American Academy of Engineering, and Professor Zhang Xu, a famous scholar and academician of the China Academy of Sciences. The laboratory has 2/kloc-0 staff, including 6 professors, 9 associate professors and 7 doctors. The laboratory is equipped with 30 advanced instruments and equipment such as multi-user workstations, sapphire laser systems, microprocessor analysis systems, precision mirrors, spectrum analyzers, erbium-doped fiber amplifiers, etc., with total fixed assets of120,000 yuan. The main research directions of the laboratory are: all-optical communication network technology research, regional optical fiber communication network technology and application research, optical guided wave and photonic device basic technology research. To cultivate high-level talents in these fields. At present, there are 3 postdoctoral students, 35 doctoral students and 37 master students. According to the professional characteristics, a number of teaching experiment courses have been set up.
All-optical communication network is the frontier research field in the world at present. In the mid-1990s, the laboratory took the lead in putting forward the research plan of all-optical communication network in China, which was supported by the national major 863 plan. This is the first batch of all-optical communication network research projects supported by China government departments. 1998, the laboratory built the first three-node metropolitan all-optical self-healing test ring network and four-node metropolitan all-optical self-healing double-ring test network with complete network level in China. Appraised by the expert group organized by the Ministry of Science and Technology and the Shanghai Municipal Science and Technology Commission, it is considered that "this technology has the international advanced level in the middle and late 1990s, with characteristics and many important innovations. China has done pioneering work in the field of all-optical communication network research, and proposed and verified many innovative node structures, especially the optical self-healing ring structure was realized for the first time in China. The completed research results have laid a solid foundation for further research and development of all-optical communication network practical technology. " At present, this achievement has been industrialized. In terms of regional optical fiber communication network, the laboratory has undertaken a number of national and provincial key research projects. For example, in the application research of regional optical fiber communication network in national defense and military fields, it undertakes the key scientific and technological project "SDH multi-ring integrated communication network" of the ninth five-year plan of the National Defense Science and Technology Commission, mainly researching and providing highly reliable multi-channel self-healing ring integrated communication network for voice, data and images; The research of "optical switching matrix" is the key equipment for multipath selection in high-speed regional optical fiber communication networks. At the same time, the "last1km" of optical fiber communication network accessing users' homes-access network is studied. In terms of optical guided waves, photonic devices and optical nonlinearity, the main research work includes: 1) research and development of various passive optical devices supporting DWDM high-capacity optical fiber communication networks, and exploration and research of various new optical devices and their applications in high-capacity optical fiber communication networks. 2) Study the multi-wave interaction in nonlinear optics and the optical nonlinear effect in optical fiber; Influence of dispersion and nonlinearity on optical signal transmission and its utilization. 3) In the study of guided wave optics, the exact dispersion equation of graded index optical waveguide is established, and the approximate essence of WKB method is clarified physically; Many SCI/EI papers are published every year. 4) In terms of special optical fibers and devices, special optical fibers (including timing optical fibers and organic plastic optical fibers) and devices, including radiation-resistant optical fibers, are studied, and the radiation-resistant mechanism and radiation-resistant reinforcement technology of such optical fibers are studied. As a fiber channel coupler, the radiation-resistant special fiber developed by our laboratory has been successfully applied to the C remote sensor of Fengyun-1 meteorological satellite launched in May 1999. The on-orbit test organized by the Satellite Meteorological Center of China-Japan Meteorological Bureau shows that the image obtained by using the fiber channel is clear, and its image quality is comparable to that of NOAA- 15 satellite launched by the United States in 1998.
During the Ninth Five-Year Plan period, the laboratory was supported by 136 scientific research project, with the funding of131375,000 yuan, including "863" project 16, 4 climbing projects, and National Natural Science Foundation project 15. Obtained 6 patents, 7 scientific and technological progress awards and published 3 monographs. Published 5/kloc-0 papers in international journals, 98 papers in domestic core journals and 85 papers in domestic general journals. The laboratory maintains close communication and cooperation with some internationally renowned academic groups and institutions. 1994- 1999 carried out TC (technical cooperation) project with DFID, and carried out technical cooperation and exchange for 7 people. We have cooperated with the University of New South Wales in Australia in all-optical communication network. In 2000, the development of global information communication, especially optical fiber communication technology, entered a higher level. While providing opportunities, it also brings severe challenges. On the basis of research results, the laboratory will further strengthen team building, pay special attention to cultivating young scientific and technological talents, and set higher research goals according to the development trend of optical fiber communication at home and abroad. At the same time, we will further strengthen cooperation with domestic and foreign schools, research institutions and companies in the field of optical fiber communication technology. Pay attention to the industrialization of research results. In order to improve China's position in the field of international information and communication, cultivate communication technology talents urgently needed by the country and enhance China's comprehensive competitiveness in the world, we should make our due contribution.
Institute of signal processing and systems
The Institute of Signal Processing and Systems, formerly known as the Radar Technology Laboratory, was approved by CSSC on 1980. In order to meet the requirements of domestic and international situation and technological development, 1990 was changed to "teaching and research center of signal and information processing". After years of accumulation and development, the Institute of Signal Processing and Systems of Shanghai Jiaotong University was established with the approval of Shanghai Jiaotong University in 2006, mainly engaged in radar signal processing, digital signal processing, communication signal processing, compression and coding of voice, audio and multimedia signals, and DSP applications. Signal College has 10 teachers, nearly 100 graduate students and five major laboratories. For a long time, we have accumulated rich achievements, technology and experience in basic research, software development and hardware production related to signal processing.