Undergraduate Programmes

 

Electronic Information Engineering - Bachelor degree

 

The major engage is teaching and researching in electronics and information sciences. Continuing research in these fields ranges from basic theory, signal acquisition and processing and electronic instrument. As well, the courses are integrated with plenty of projects from the basic training of electronic projects, information engineering practices and computer aided design etc. This major was listed into the prior developing subjects of the ‘National Excellent Engineers Plan’.

There are two fields in the major: electronic instrument design and computer monitoring. It aims to expand the abilities of utilizing the electronic instruments, designing the electronic circuits and developing the computer monitoring system.

The main fields of this major are: Circuit Theory, Analog Electronic Technology, Digital Electronic Technology, Principle and Application of EDA, Communication Principle, Principle and Application of Computer, Sensors and Monitoring Technology, Automatic Control Theory, Computer Vision, Embedded Systems, Virtual Instrument Technology, Electronic Measurement Technology, Computer Control Technology, Programmable Logic Controller, Photoelectric Detection Technology.

 

Communication Engineering - Bachelor degree

 

The major engage in the area of communication engineering composes of exploring the studies of communication system; practicing the design, analysis and test of communication instrument; managing the communication techniques; managing and supporting the communication networks. It is one of the Tianjin brand programs.

Two areas of the major includes: modern communication network system and communication signals processing. It aims to explore the communication system related abilities, such as circuit design, equipment testing, system simulation and networks development etc.

The main fields of this major are: Electronic Circuit Theory, Analog Electronic Technology, Digital Electronic Technology, High-frequency Electronic Technology, Communication Principles, Signals and Systems, Electromagnetic Field Theory, Microwave and Antennas Technology, Basic Information Theory, Digital Signal Processing Technology, Modern Communication Networks, Fiber-optic Communications Technology, Modern Switchboard Technology, Mobile Radio Foundations, Satellite Communications.

 

Electronic Information Science and Technology - Bachelor degree

 

Leveraging electronic information science and technology, this major focuses on the theory and technology of signal processing, information transmission, etc.

The major fields of studies include digital signal processing and textile signal processing, which feature digital signal processing, image processing and their applications in the textile industry. The aim is to cultivate students in the utilization of electronic instruments, signal processing theory and tools, DSP-based circuit designs, etc.

The main subjects of this major are: Circuit Theory, Signal and System, Analog Electronic Technology, Digital Electronic Technology, Communication Principle, Data Structure, Database Principle and Its Application, Digital Signal Processing, Digital Image Processing, Object Oriented Programming, DSP Technology, Computer Communication Networks.

 

Electronic Science and Technology - Bachelor degree

 

Electronics Science and Technology is an advance discipline of information science technology, with microelectronics and optoelectronics as foundation. The fields what the students would master range from the basic theory, electronic materials and components, microelectronics devices, optoelectronic devices, semiconductor design technology. As well, the courses are integrated with plenty of projects from the basic training of LIS design, EDA practices etc.

The Electronic Science and Technology major consists of two research fields: Microelectronics and Large Scale Integrated circuit design. It is characterized by the research, design and application of LSI circuits and integrated systems, as well as the integrated optoelectronics system.

The main fields of this major are: Circuit Theory, Signals and Systems, Digital Signal Processing, Communication Theory, Semiconductor Physics, Semiconductor Integrated Circuit, Large-scale Programmable Logic Device (VLSI) Design, IC Process Principles, Semiconductor Microscopic Analysis, Optoelectronics Technology.

 

Biomedical Engineering - Bachelor degree

 

The mission of Biomedical Engineering is to fuse the life sciences and the electronic information engineering , in order to promote the development of new biomedical technologies and medical devices. This major is created under the needs of the senior talents of biomedical engineering in our country.

The mainly researchfields of Biomedical Engineering can be summarized as the design of modern medical instruments and medical signals processing. The education in Biomedical Engineering provides students a solid foundation in engineering and enables students to translate life scientific knowledge into biological signals processing system.

The main courses of this major are: Circuit Theory, Analog Electronics Technology, Digital Electronics Technology, Electronic Technology, High-frequency Electronic Technology, Signals and Systems, Basic Medicine, Engineering Optics, Embedded Systems, Biomedical Electronics Technology, Human Anatomy, Electromagnetic Fields, Medical Electronic Instrument Design, Sensors and Medical Engineering, Introduction of Medical Instruments, Electromagnetic Compatibility, Medical Imaging Technology, Biomedical Photonics.

 

Communication Engineering (Sino-Australian Cooperative Education Program) - Bachelor degree

 

This program will help the students to reach their goals of accessing to high-level education by less cost according to the international cooperation and exchanges. We introduce the educational resources of the Electrical, Computer & TelecommunicationsEngineeringSchool at University of Wollongong (UOW) to complete parts of the courses of communication engineering.

 

 

Graduate programmes

 

1.Information and Communication Engineering - Master degree

 

The Information and Communication Engineering is the first level discipline which is authorized to award master degree of engineering. Graduate instruction and research programs are available in all areas of communication principle, signals processing, electrical engineering and computer science.

The graduate program is tailored to meet the specific needs of the individual student. Students choose their area of specialization from the following: Modern Communication Networks, Remote Monitoring and Control System, Communication Equipments, Modern Digital Signal Processing, Wireless Communication Technology, Optical Fiber Communication Technology and Soft Switch Technology, etc.

The curricula of this discipline are: Numerical Analysis, Random Process and Application, Basic Information Theory, Modern Digital Signal Processing, Image Processing, Information Compression and Coding, Network Theory, the Next Generation of Networks, Modern Digital Switching Technology, Modern DSP Technology and System Design, Optical Fiber Communication Technology, etc.

This major consists of 2.5 years. After finished the studies, the students are able to award a master's degree of engineering.

 

2.Electronic Science and Technology - Master degree

 

Electronic Science and Technology is the first level discipline which is authorized to award master degree of engineering. The Objective of this discipline is to establish a complete experimental training system for the students, in the areas of Electronic Devices, Electronic Circuit, and Electronic Information System, which are the basis of the Electronic Information Science and Technology.

This discipline relies on the ‘High-Power LED Engineering Research Center (affiliated with the Ministry of Education)’, ‘Tianjin Semi conductor Lighting Technology Center and Electronic Information Research Center’. It is characterized by the New Semiconductor Lighting Technology, New semiconductor Optoelectronic Materials and Devices, Technology and Application of Nano Sensors, Nonlinear Optics and Ultra-short Pulse Technology. Researches involve New Semiconductor Luminescence Materials, Technology and Application of Nano Sensors, Semiconductor Lighting Technique, Integrated Circuit Design, Photo-electric Detecting Technique and its Application, Nonlinear Optics, Ultra-short Pulse Technology, Quantum Information and Transportation and Theory of Electromagnetic Compatibility.

The curricula of this discipline are: Matrix Theory, Numerical Analysis, Stochastic Processes and Applications, Semiconductor Device Physics, Digital IC Design, Modern Digital Signal Process, Nanometer Sensor, Electromagnetic Field Theory, Luminescence Physics, Solid State Theory, Information Optics, Optoelectronics, Advanced Semiconductor Technique, Optoelectronic Device and Integration, Nonlinear Optical Technique, etc.

This major consists of 2.5 years. After finished the studies, the students are able to award a master's degree of engineering.

 

3.Biomedical Engineering - Master degree

 

Graduate students in Biomedical Engineering engage in a rich spectrum of advanced research at the new biomedical technologies and medical devices areas.

It is an interdisciplinary that the research fields involve the Biomedical Engineering, Mechanical Engineering, Electrical Engineering, Diagnosis, Materials Science, Orthopedics, Bioinformatics, and biological devices.

The major is mainly characterized by Biological Sensing, Medical Imaging and Medical Devices, Modern Electronic Medical Instrument Design, Bio-electromagnetic Effects, Biomedical Photonics and Spectrum Technology, the Membrane Separation Technology in Bio-medicine, High-performance Medical Composite Material and Biomechanics.

The curricula of this discipline are: Applied Statistics, Numerical Analysis, Stochastic Process and its Applications, Biomedical Electronics, Biomedical Photonics, Digital Signal Processing, Modern Material Testing and Analysis, Membrane Separation Engineering, Medical Composite Material, Medical Electronic Instrument Design, etc.

This major consists of 2.5 years. After finished the studies, the students are able to award a master's degree of engineering.

 

4.Materials Testing Technology and Systems (Subordinate Discipline Doctoral Degree Program and Subordinate Discipline Master Degree Programme)

 

Materials Testing Technology and Systems is a subordinate discipline doctoral degree program and a master degree program independently set under the first level discipline of Materials Science and Engineering. Basic theories and application technology of nondestructive materials and intelligent detection are mainly research fields. Digitization, automation, intelligent, multi-information fusion detection systems are researched to meet the needs of detection of various materials. It provides support for further research on physical and chemical properties of materials, improvement of material preparation technology and properties and qualities of materials and promotion of novel material exploitation. Research features: Nondestructive Testing Technology and Systems, Biomedical Materials Testing Technology, Textile Material Testing Technology, Optoelectronic Materials Testing Technology and Nanometer Photoelectric Detection Technology and Devices.

Main research domains include: Nondestructive Testing Theory, Signal Acquisition and Processing Technology, Identification and Location of Internal Defects of Material, Electrical Conduction Properties of Biological Tissues and Materials, Theory of Biomedical Signals Detection, Intelligent Testing Technology of Textiles, Design Preparation and Test of Photoelectric Materials, and Photoelectric Detection Technology and Devices.

Main Curricula: Nonlinear Mathematical Foundation, Modern Sensor Technology, Modern Signal Processing Theory, Photoelectric Information Detection Technology, Modern Material Testing and Analysis, the Introduction of Materials Science, Nondestructive Testing Technology of Materials, Biomedical Materials and Information Technology, Detection Technology based on Image Processing, Electrical Materials and Testing Technologies, Nano-materials and Nanotechnology.

Doctoral students will gain an Engineering Doctorate after 3 years study, and master degree students will gain a Master Degree in Engineering after two and a half years study.

 

5.Electronics and Communication Engineering - Master degree

 

Electronics and Communication Engineering is a field of Engineering Masters combining electronic technology and information technology which is a construction of a modern information society.It directly trains high-level engineering and project management personnel engaged in management, research, design, operation, maintenance and development, for enterprises in communication and information systems, signal and information processing,circuits and systems, electromagnetic field and electromagnetic wave etc. It mainly involves in the field of modern communications network systems and engineering, modern communication technology applications, remote detection systems and engineering, design and application of modern communications equipment, modern information processing technology and engineering, electronic systems design and engineering, modern sensor technology and applications, circuit design and application, DSP technology and applications.

The main curricula: numerical analysis, applied statistics, modern digital signal processing, image processing, data compression and coding switching technology, the theoretical basis of communication networks, information theory, optical fiber communication technology, testing technology and signal processing, DSP technology and system design, modern digital switching technology, SOC design and application, and so on.

This major consists of 2.5 years. After finished the studies, the students are able to award a master's degree of engineering.

 

6.Integrated Circuit Engineering - Master degree

 

Integrated Circuits Engineering is a field of Engineering Masters that focuses on the integrated circuits design, manufacturing, testing, packaging. It also focuses on the integrated circuits materials, devices and their applications in areas such as network communications, digital home appliances, information security, etc.This discipline is designed to meet the needs of social development and economic construction.It aims to develop high level talents engaged in integrated circuit engineering and project management. The domains involves Integrated Circuit Engineering, SOC Design, integrated circuit applications, integrated circuit technology and manufacturing, integrated circuits testing and packaging, integrated circuits materials, electronic design automation EDA technology and its applications, embedded system design and application, integrated circuit intellectual property management, integrated circuit design companies and manufacturing enterprises, and so on.

Major curricula of this study include foreign languages, Numerical analysis, Applied Statistics, Semiconductor device physics, Digital integrated circuit design, Analog CMOS integrated circuits, SoC design and application, Advanced Semiconductor processes and so on.

This major consists of 2.5 years. After finished the studies, the students are able to award a master's degree of engineering.

 

7.Biomedical Engineering - Master degree

 

Biomedical engineering has an orientation towards the chiasm and infiltration between life science, electronic information, materials science and so on. It is a field of Engineering Masters, closely related to the formation and development of biotechnology industry in the 21st century. According to the needs of development of society and economy, this discipline focuses on the high-level technology in biomedical engineering and engineering management talents. It emphasizes advanced technologies and methods, the sense of creation and the ability of management.The fields related to the major mainly include electronics and communication engineering, biomedical materials, modern medical engineering, medical engineering management; modern hospital’s monitoring system, remote medical engineering, design and development of senior medical instrument system, computer network, and modern hospital management and so on.

The main curricula include foreign languages, numerical analysis, applied statistics, biomedical electronics, sensors and medical engineering, detecting technique, medical optical instrument, modern digital signal processing technology, picture processing, biomedical photonics, medical composite materials, membrane separations, biophysics, nano-sensor, the principle and application of embedded system, wireless sensor network ,etc.

This major consists of 2.5 years. After finished the studies, the students are able to award a master's degree of engineering.

 

 

©2015 TJPU