First-level disciplines: information and communication engineering, geophysics, electronic science and technology
Second-level disciplines: space physics, radio physics, communication and information systems, signal and information processing, space exploration and information processing technology First-level disciplines: optical engineering, instrument science and technology
Second-level disciplines: communication and information systems, signal and information processing, space physics, space detection and information processing technology, circuit and system, electromagnetic field and microwave technology, physical electronics, test and measurement technology and instrumentation, precision instrument and machinery, detection technology and automation. Physics, Space Exploration and Information Processing Technology, Radio Physics, Circuits and Systems, Electromagnetic Field and Microwave Technology, Physical Electronics, Test and Measurement Technology and Instrumentation, Precision Instrumentation and Mechanics, Detection Technology and Automation Devices, Optical Engineering Electronic Information Science and Technology, Communications Engineering, Electronic Information Engineering, Optical Information Science and Technology, Measurement and Control Technology and Instrumentation, Wave Propagation and Antenna.
Electronic Information Science (Communication Engineering)
This specialty is a discipline that involves the complete basic knowledge of modern electronics, computer science and information science and other disciplines, associated with a wide range of application areas in industry, agriculture, biology, medical, aerospace, military, financial industry, radio and television, Internet and other industries, the main research object includes information acquisition, storage, The main research objects include information acquisition, storage, transmission, processing and application, as well as research, analysis, design, development, maintenance, testing, integration and application of information and communication equipment and systems. Cultivate senior specialists with a solid foundation in mathematical physics, mastering the basic principles and general technical knowledge in the field of communication, signal and information processing, understanding the general theories and technologies of electronics, computers, automatic control and other disciplines, understanding the cutting-edge development trend of the information and communication engineering disciplines, and being able to use modern tools such as computers to research and design modern communication systems, and comprehensively process and develop and utilize the information. Specialists.
The main courses are: information theory and coding, communication principles and experiments, communication network theory, mobile communication, fiber optic communication, switching principles, communication electronic circuits and experiments, microwave technology and experiments, antenna theory and design, modern digital signal processing and experiments, multimedia information processing technology, voice signal processing, image processing, and so on.
This program is one of the first batch of the second national characteristic specialty construction points.
Electronic Information Science (Electronic Information Engineering)
This major takes modern physics, electronics and information science as the main means to study the basic theories of modern electronic information system design, the basic methods of analysis and testing, and the new technology of realization, and the theory and new technology of electronic information acquisition, detection, control, processing and application, to cultivate people with a solid foundation of mathematical physics The course aims to cultivate senior specialists who have a solid foundation in mathematical physics and electronics, master the basic theory of modern electronic information systems, the basic theory and technology of signal processing, and are able to use modern tools such as computers to conduct theoretical research, design, control and application development of various electronic information systems.
The main specialized courses are: signal and system, DSP principle, embedded system, digital signal processing, computer technology, microprocessor and system design, network analysis and synthesis, communication principle and experiment, nonlinear electronic circuit and experiment, microwave technology and experiment, modern digital signal processing and experiment, image processing and experiment, multimedia information processing technology, antenna theory and design.
In 2013, 36 students will be selected from our freshmen to form a pilot class of the Excellence in Engineer Education Training Program.
Electronic Information Science (Electronic Information Science and Technology)
This major applies the basic theories, methods and experimental means of modern physics and electronic information science, and mainly researches on the laws of electromagnetic field and wave interaction with matter, develops new electronic devices and systems, and develops new theories, methods and technologies for information acquisition, transmission, processing, storage and application. This program cultivates senior specialized talents in electronic engineering who have a solid foundation in mathematical physics and broad professional knowledge, are rich in innovative spirit and practical ability, have received good training in scientific experimentation, adapt to technological advances and changes in social demand, and are capable of engaging in scientific research, scientific and technological development, and product design in the field of electronic information science and technology and related fields.
The main courses include: electronic circuits and experiments, communication principles and experiments, wave propagation and experiments, wireless communication technology, radar principles and applications, digital signal processing and experiments, microcomputer principles and interface technology and experiments, radio frequency circuits and experiments, DSP technology and applications, embedded system design, antenna principles and experiments, microwave technology and experiments, integrated circuit design and experiments, Multimedia information processing technology, modern electronics experiments.
This program is the first national specialty construction point.
Electronic Information Science (Wave Propagation and Antenna)
This major applies the basic theories, methods and experimental means of modern physics and electronic information science, mainly researches on the basic laws of the interaction between electromagnetic waves and matter, and develops new theories, methods and technologies and systems for the generation, transmission, processing, storage of electromagnetic wave signals and their application in communication, radar, remote sensing, navigation and positioning. and new technologies and systems. This specialty is the cradle of training talents in China's radio wave science, cultivating senior specialized top talents with a solid foundation in mathematical physics, mastering the basic theory, basic knowledge and experimental skills of modern electronic information science and technology, and being able to use modern tools such as computers to analyze, design and comprehensively apply to the radio system and information acquisition.
The main specialized courses are: electronic circuits and experiments, signals and systems and experiments, electromagnetic field theory, microcomputer principles and interface technology and experiments, communication principles and experiments, radio frequency circuits and experiments, digital signal processing and experiments, the solar-terrestrial space environment and the basics of detection technology, wave propagation and experiments, antennae and experiments, microwave technology and experiments, radar principles and applications, GPS technology and applications, integrated circuit design and experiments, the environment and detection technology. application, integrated circuit design and experiment, scientific computing methods, computer networks, DSP technology and its application, embedded system design.
Optoelectronic Information (Optical Information Science and Technology)
This program applies the basic theories, methods and experimental means of modern physics, optics and electronic information science to study the interaction between light and matter and the detection, acquisition, transformation, storage, transmission and processing of optoelectronic signals, and to develop new optoelectronic devices and systems by applying new theories and technologies. Mathematical physics foundation, master the basic theory of modern optics and electronic information science, basic knowledge and basic skills, can use computers and other modern tools for photoelectric information and its systems for theoretical analysis, design, integrated processing and application of senior specialists.
The main specialized courses are: the physical basis of optoelectronic information, engineering optics, laser and infrared technology, optoelectronic detection technology and experiments, sensor principles and applications and experiments, optical communication technology, optoelectronic display technology, optoelectronics and experiments, image measurement and processing, principles of microcomputers and experiments, modern digital signal processing and experiments, low-frequency electronic circuits, digital logic circuits, computer control technology, Computer network, multimedia information processing technology, etc.
Optoelectronic Information (Measurement and Control Technology and Instrumentation)
This program applies the basic theories, methods and experimental means of modern physics, electronic information science and control science to study the basic theories, methods and techniques of detecting, measuring, monitoring and controlling various physical quantities, to search for new measurement methods and to design new measurement and control instruments and systems, and to cultivate students with a solid foundation in mathematical physics, mastery of electronic information science, computer science and computer technology. It aims to cultivate senior specialists with a solid foundation in mathematical physics, mastering the basic theories, basic knowledge and basic skills in the fields of electronic information science, computers, sensors, automatic detection and control, and being able to utilize computers and other tools for the detection and control of all kinds of electrical and non-electrical quantities as well as for the development of related instruments and meters.
The main professional courses are: sensor principles and experiments, photoelectric detection technology and experiments, digital signal processing and experiments, principles of automatic control, microcomputer principles and interface technology and experiments, programmable controller principles and experiments, computer networks and communications, computer control technology, basic mechanical design, error theory and data processing, measurement and control circuit design, measurement and control instrumentation design, intelligent instruments and virtual instrumentation, digital image processing and development. Virtual Instruments, Digital Image Processing and Experiments, etc.