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Interdisciplinary Programs

16 Programs(Before year 2011/08)

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Computer System Program

The objective of CS program is to provide knowledge and techniques concern the design and integration of computer system in both software and hardware. The courses include fundamental knowledge, theoretical studies, advanced expertise and technical practices etc.

Software Engineering Program

Software Engineering is the core technology of information system development. This program provides not only the theoretical and fundamental studies of software technology, but also the practice of developing efficient, effective and real-time large software systems with various requirements. The courses emphasize the study and development of computer system software and application system software such that students can acquire professional knowledge, techniques, and practical training in software engineering. Our goal is to nurture students with good practice of software engineering to become the experts of information technology.

System-on-Chip Program

With the rapid progress of electronics, computer, and communication technologies, System-on-Chip (SOC) design and application become more and more important. Ccoping with trend, this program provides courses, such as circuit design, system programming, HW/SW integration lab, etc., that cover both hardware and software development of SOC. Our goal is to discipline students with good SOC knowledge for this upcoming new SOC era..

Internet Engineering Program

The objective of Internet Engineering program is to provide knowledge and techniques concern the study and development of computer networks, multimedia systems, and web-based applications. The courses include computer communications and networks, interconnected and high speed networks, network programming, information and network security, network management, multimedia systems, and database etc.

 

 

 Electro-Optics Engineering Program

The research topics of Electro-Optics Engineering Program include the development of various photonics technologies and their applications. The applications cover optical fiber, optical display, optoelectronics semiconductor and other fundamental research. The research issues include 1)fiber amplify and fiber sensor, 2)Optical properties of Liquid crystal display, 3)optoelectronics semiconductor, organic/polymer material growth and characterization, and 4)relevant measurement techniques. Research methodologies include experiment and numerical simulation.

Electromagnetic Wave Engineering Program

To meet the educational development in structuring different major concentrations for the Department of Electrical Engineering and suffice the thriving needs in modern electromagnetics-oriented community, the study track of electro-wave program has been offered since 2001. The complexity of today’s relevant problems in electromagnetics and a large variety of electromagnetic applications require students’ strong background in professional knowledge and skill to challenge them. We provide integrated curricula in combining theory and practice on the foundations and advanced studies. The interdisciplinary interests and capabilities of our faculty are the most important factors contributing to excellence in study and research.

Electromagnetic and Energy Resource Engineering Program

The program provides a basic theory of electrical and magnetic phenomena. Students can apply these fundamentals of theory for further investigation of new and complex situations with exciting possibilities for advanced development.

To meet the requirement of electrical industrial productions, the core study also includes;

(a)Performance study of design of rotating and linear electric machines,

(b)Operation analysis of electric power system under the restructuring of electric utility industry,

(c)Technical study and application of green energy conversion,

Technical study and application of converters and drivers.  


 VLSI Design Program

This object of VLSI program is to provide the knowledge of IC design and techniques concerning the very large-scale integrated (VLSI) circuit. The proposed courses in this program include several chip design styles: from full-customed design dealing with physical layout to fast prototyping design of programmable logic devices.

Semiconductor Program

The object of SC program is to provide knowledge and techniques concerning the semiconductor engineering and the advanced processing for VLSI. The courses include: Semiconductor Physics and Devices, Solid-State Electronics, Electronic Materials, VLSI Technology, IC Simulation, Semiconductor Testing and Modeling, and IC Reliability.

Electronic Devices Program

The object of ED program is to provide knowledge and techniques concerning the solid-state engineering and the advanced module circuits for electronic devices. The courses include: Semiconductor Physics and Devices, Semiconductor Materials and Solid-State Electronics (high speed devices, optoelectronic devices, heterostructure devices, high power devices), Semiconductor Process Technology, Device and Process Simulation, Electronic Divice Design, OEICs/MMICs/RFICs. 

 

 Biomedical Engineering Program

The mission of BME program is to provide knowledge in engineering related to biomedical sciences and health care applications that integrates the principles of engineering, technology and medical science. The courses in BME program include: human anatomy, physiology, the design of medical instrumentation, physiologic modeling, biostatistics, biomedical signal processing and medical image processing, and so on. From the course training, the students are expected to be able to identify and implement the appropriate sensor and measurement technique for the detection of biomedical signals or images, and can use the specific theory or algorithm to quantify the derived data. The graduated students will be able to evaluate the statistical significance of the measured data properly and have the excellent ability in communication with medical staff in hospitals. These abilities make them competitive in industry and academia.

Control Engineering Program

Control Engineering (CE) has played a vital role in the advance of engineering and science. In addition to its extreme importance in space-vehicle systems, missile guidance systems, robotic systems, and the like, automatic control has become an important and integral part of modern manufacturing and industrial processes. The principal direction of the (CE) program is the research into theories and applications that include basic control theory, intelligent control, system integration and industrial applications, the precision dynamic control, applications of the people’s livelihood control technology, etc.

Micro-Electro-Mechanical System Engineering Program

Micro-Electro-Mechanical System(MEMS) engineering program is an interdisciplinary undergraduate program to conduct study of MEMS engineering for serving the needs of the nation. The courses of MEMS program cover the fields of microelectronic, MEMS process and microfabrication, MEMS devices and Microsystems, measurement techniques, computer-aided education objective is to teach students to obtain an ability to analyze and design MEMS devices as well as solve MEMS problem in practice by applying knowledge of mathematics, science, and engeering. State-of-the art engineering techniques, skill, and tools are used. The talent from MEMS program training is an ability to do the planning, specification, design, processes, implementation, and system operation that meet industrial requirements. 

 

 Network Communications Program

Network Communications Program explores the network technologies to understand how a network system works, how it is designed, and further, to be able to integrate with other academic network program. The curriculum emphasizing both hardware and software fields can train students to be excellent professionals. Courses include network protocol, programming , cryptograph, telephony and broadband communications. Research topics are about fields of hardware and software design of network protocols, Bluetooth technology, information securities, wireless networks, network management, multimedia communications, Internet applications, high speed networks, telecommunication network ,etc.

Multimedia Communications Program

The objective of multimedia communications program is to provide an academic program on the studies of the fundamental theories and techniques of multimedaia communications in all aspects, including processing, analysis, recognition, transmission, storage, and module of multimedia signals. The core courses signals and systems, digital signal processing, digital communications, date compression and multimedia signal processing etc. The research areas include image and video processing, pattern recognition, computer vision, multirate filtering , signal coding theory, encryption and security, and based-band digital signal processing in communication.

Wireless Communications Program

The program of the wireless communication is devoted to the study and research of the communication related Techniques. The objective of wireless communication is to transmit the analog and digital information to the destination the information includes the voices, data, and image signals. The curriculums of wireless communication program is designed to meet the important and basic communication techniques which includes the modulation, demodulation, information coding, decoding, signal generation, amplifier, the communication network design, implementation, simulation, and experiments, the goal of curriculum of the wireless communication is to let the student have the capability of the basic communication techniques.