云顶娱乐-[官网]云顶娱乐

    Information Electronic
The Department of Information Electronics origins from disciplines Magnetism (1955) , Semiconductor Physics (1956) and Circuit and System (1987) . It consists of second level disciplines including: Circuits and Systems, Physical Electronics, Microelectronics and Solid State Electronics, Biomedical Engineering, and Circuits and Systems, Physical Electronics, Microelectronics and Solid State Electronics have a doctorate authorization. At present, it has built up a research and teaching team with both science and engineering background and young teachers as the backbone, including 5 professors and 13 associate professors and senior engineers. In addition, the percentage of young teachers (under 35 year old) is around 48% . The team contains 4 doctoral tutor, 1 winner of national Outstanding Youth Fund and 3 NJU young core teacher. 
Currently, the department has a center for embedded software research and development research, a institute for biomedical electronics engineering research, and laboratories for modern image engineering, advanced devices and information functional materials, micro-nano integrated technology and optoelectronic chip, stereo image signal processing and display technology, electromagnetic materials and application technology. Its research fields include: digital image processing, digital video processing, human-computer interaction technology, embedded software and hardware systems, wireless communication, pattern recognition, medical ultrasound and engineering, medical signal processing, medical equipment and systems, wide band gap semiconductor power devices, ultraviolet electronic devices, silicon-base deep sub-micro devices and integrated circuits, optoelectronic detection and processing chips, new heterojunction materials and device physics, electromagnetic absorbing materials and applications, microwave measurement technology.
Embedded Software Research and Development Center and Modern Image Engineering Laboratory (ESRDC & MIEL)
Relying on second level discipline  Circuits and Systems  , the ESRDC (found in 1998) and MIEL (found in 2006) are the earliest practical institutions to combine science technology and electronic information science in the department or even in the school. Its research fields include: image control and operation automation, video display and processing, 3D scanning technology research and augmented reality, near-field images, embedded operating system and embedded handheld devices software application development , wireless auto-organize networks and wireless sensor network algorithms and devices, intelligent robots, Internet routing technology of IOT sensor, high security biometric identification, etc.. It has obtained a series of core technologies with independent intellectual property rights, and a number of research projects have come through provincial identification or national defense test. In addition, a batch of achievements, especially disguised operation automation and embedded system, are widely used in national defense fronts and national economic fields like research for new kind of weapons, intelligent transportation, environmental protection and public security. 
The lab and research center have taken dozens of projects including  863 Program  sub-projects, defensive weapon pre-research Funds, IT international cooperation, NSFC, Jiangsu Province high-tech supporting plan. The lab and center have also made some remarkable achievements, wining over 10 prizes including second prize of MOE Technology Progress for two times, Provincial Technology Progress Award, Japan's Fujitsu Outstanding Work Award, Jiangsu Province Outstanding Software Project. While at the same time, students in the lab and the center won some international and national award including  IBM Global Linux Challenge Award  , Intel Cup Embedded Design Competition first prize , etc.. 
Laboratory for Advanced Devices and Information Functional Materials

The lab belongs to both Nanjing National Laboratory of micro structure and Jiangsu Province key laboratory of optoelectronic information function materials, mainly research for new wide band gap semiconductor materials, device physics and technique. The wide band gap semiconductor, particularly Ⅲ nitride and SiC, which is known as the third-generation semiconductor material after silicon-based material and GaAs-based material and can be perfectly used in UV electronic devices, power electronic devices and microwave power devices, is an international hot spot for its widely useful value. The lab makes great progress and gains its international fame in projects including National Outstanding Youth Science Foundation, National Natural Science Foundation of China (NSFC) , 973 projects, 863 projects, Jiangsu Province Fund projects and local cooperation projects. For the first time, it made and reported a kind of AlGaN / GaN heterojunction Hall device that can work over 3000 degree centigrade, an InN-based surface chemical sensor, a GaN homogeneous epitaxial UV detector with very low dark current; it succeed in GaN high-speed rectifiers which can bear 800V; it independently developed a high-speed SiC epitaxia growth equipment; it also made a deep discussion about basic physic problems of GaN-based optoelectronic devices and power devices. 
The lab has advanced micro machining testing lines, material growth and devices testing analysis system and industrial-grade device simulation environment, as well as a power electronic devices failure analysis joint platform cooperated with Cascade Inc, a famous American testing equipment company. The lab’s research direction involves the conversion of electronic energy, environmental monitoring, biomedical, real-time electronic power monitoring, defense warning and tracking, as well as oil and mineral exploration. Currently, the lab has established close relationship and published papers with dozens of international famous research organizations, including Cornell University, Berkeley University of California, Duke University, Georgia Institute of Technology (Gatech) , the United States National Renewable Energy Laboratory (NREL) , the US National Bureau of Standards (NIST) , the German Fraunhofer Institute of Applied Physics and Tohoku University. The main research directions include: wide band gap semiconductor power electronics, wide band gap semiconductor microwave power devices, wide band gap semiconductor ultraviolet electronic devices, new semiconductor heterostructure materials and device physics. 
Laboratory for micro-nano integrated technology and optoelectronic chips 
 
For the next generation of ultra large scale integrated circuit (ULSI) and chip applications, the laboratory is mainly engaged in the study of physical information electronics about mainstream silicon-based semiconductor devices, as well as developing chip-system-based integrated application technology of related mainstream micro electronic devices in key IE fields like mobile storage and optoelectronic signal detection / storage / conversion / transmission. The research interests include: physic structure and electronic design of prototype device based on the microelectronics industry manufacturing standards; fully functional analog based on the supercomputer platform (Dawn 5000) and three-dimensional simulation of the devices’ structure / material / process; the integrated design based on chip system and the industry-standard manufacturing process of prototype devices and integrated chips; research for the reliability of semiconductor devices under 65nm (include 65nm) and comprehensive evaluation programs about reliability; characteristics and matching technology of high-K material suitable for devices under 32nm (include 32nm) ; the design, manufacture and analysis of ultra-high density optoelectronic sensor chip. What’s more, the lab has a strong analysis testing platform for devices and chips, as well as environment for devices’ stimulation and design. In addition, the lab has undertake lots of research projects including National Major Projects, National Defense Major Project, National 973 Program projects and NSFC. Its cooperation organizations include Institute of Microelectronics in Chinese Academy of Science, SMIC, and Tsinghua University. 
For the next generation of ultra large scale integrated circuit (ULSI) and chip applications, the laboratory is mainly engaged in the study of physical information electronics about mainstream silicon-based semiconductor devices, as well as developing chip-system-based integrated application technology of related mainstream micro electronic devices in key IE fields like mobile storage and optoelectronic signal detection / storage / conversion / transmission. The research interests include: physic structure and electronic design of prototype device based on the microelectronics industry manufacturing standards; fully functional analog based on the supercomputer platform (Dawn 5000) and three-dimensional simulation of the devices’ structure / material / process; the integrated design based on chip system and the industry-standard manufacturing process of prototype devices and integrated chips; research for the reliability of semiconductor devices under 65nm (include 65nm) and comprehensive evaluation programs about reliability; characteristics and matching technology of high-K material suitable for devices under 32nm (include 32nm) ; the design, manufacture and analysis of ultra-high density optoelectronic sensor chip. What’s more, the lab has a strong analysis testing platform for devices and chips, as well as environment for devices’ stimulation and design. In addition, the lab has undertake lots of research projects including National Major Projects, National Defense Major Project, National 973 Program projects and NSFC. Its cooperation organizations include Institute of Microelectronics in Chinese Academy of Science, SMIC, and Tsinghua University. 
 
Laboratory for Stereoscopic Image Display and Video Processing Technology
 
The stereoscopic image display and video processing technology is a multidisciplinary technology, involving disciplines like digital image processing, electronics, computers, optical, mechanical, materials. In recent years, it focuses on the stereoscopic image display, code-decode and target recognition technology, particularly on the principles, algorithms, technique and engineering realization of the acquisition and display of naked-eye-viewing stereoscopic image, as well as the research for core technology of high-resolution, interactive, large-viewing-angle stereoscopic display. Furthermore, This kind of technology is not only the important direction for optoelectronics technology, multimedia technology, television technology in the future, but also the supporting technology for stereoscopic television systems, digital distant medicine, stereoscopic operational command and control. 
 
The lab has received support from the Ministry of Science and Technology to carry out a series of research projects including: EU scientific and technological cooperation program, EU Framework Program, 863 Program, NSFC, weaponry pre-research program, military electronic pre-research program, defense engineering support project, Jiangsu Province high-tech program, Guangdong Province IAR program. 

Since we carried out the research about stereoscopic image display and processing technology in 1993, we has achieved a series of core technologies with independent intellectual property rights and a number of projects have been identified by provincial and national authorities, some of which are new to world and at the international advanced level. In addition, some of them have been used to equip our military with modern new weapons, and their performance has reached even exceeded the international advanced level. We have got one third prize of Provincial Science and Technology Progress and one third prize of Provincial Teaching. 
Laboratory for Modern Electromagnetic Materials and Application Technology
 
Since the eighth five-year plan period(1991-1995), we have carried out research about microwave absorbing materials and technology, including ultrafine magnetic metal powder, ferrite material, preparation of magnetic thin materials, properties of high-frequency microwave and related microwave measurement technology. The research results can be used in military stealth weapons and civilian anti-electromagnetic radiation materials. We have undertaken a number of projects including Military 973 Program of General Armament Department and National Defense Science Department, Weapons Research projects, pre-research projects, basic scientific research projects, military supporting projects and basic capacity constructing projects. The absorbing materials we invented are top in our country and have been applied for some weapons, making us a main domestic supplier of microwave absorbing materials. In the past five years, we got more than 40 million yuan for scientific research. At the same time, we provide numerous military and civilian personnel for our country. Our research interests include: nano-structured magnetic absorbing materials, absorbing mechanism of nano materials, thin film absorbing materials, properties of high-frequency magnetic nano-film microwave, microwave measurement technique and ferrite magnetic materials. 
 
Institute of Biomedical Electronic Engineering

Our main research fields are biomedical electronics, biomedical ultrasound, medical microwave, biomedical information detection and processing. We focus on cultivating talents by research of technology development, transforming research achievements by research of Industry-Academia-Research (IAR) , medical diagnosis and treatment devices for the market, which make a great impact both at home and abroad.In particular, the high-tech medical diagnostic equipment  HFECG Detector  won second prize of Jiangsu Provincial Technology Progress Award (1993) and China Patent Invention Award (1995) ; the  Body Balance function testing and training system  won second prize of Jiangsu Provincial Technology Progress Award (2005) and second prize of MOE University Science Research Achievement Award (2008) ; the  full-information intensity modulated radiotherapy navigation system  won the third prize of Jiangsu Provincial Technology Progress Award (2009) . At the present, our research interests include: biomedical information detection and processing, nonlinear phenomena and its models of life activities, mechanism and clinical applications of biological function feedback, remote medical systems, IMRT optimization and surgical navigation, brain MRI information analysis process and its physiological mechanism, biometric technology, principle and application of the new B mode ultrasound, miniaturized medical embedded equipment. Moreover, we has undertaken more than 60 projects including 863 Program, National and Provincial Natural Science Funds projects and school-enterprise cooperation projects. 
    Currently, the undergraduate majors in the Department of Information Electronics include: electronic information science and technology, microelectronics, biomedical engineering. As a department with a both science and engineering background and focused on scientific application, the Department of Information Electronics concentrates on training undergraduates solid mathematical foundation, good scientific quality and certain ability to innovate, to enable students to firmly grasp the basic theory and basic skill of the discipline. Our students take part in the National Undergraduate Electronic Design Contest, National University Students Challenge Cup, National Graduate Electronic Design Contest every year, and since 2000, with the help of embedded software development centers and Defense Image Engineering Lab teachers, they achieved excellent results every year. 
    The main courses include: mathematics, general physics, solid state physics, semiconductor physics and devices, circuit theory, automatic control theory, analog circuits, digital circuits, computer architecture, microprocessor and embedded systems, basic software technology, signal and communication systems, digital signal processing, digital image processing, electronic information systems experiments, semiconductor technology experiments. 
 


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