Interdisciplinary Program of Electrical Engineering and Computer Science
Interdisciplinary Program of Electrical Engineering and Computer Science
Brief Introduction
Situated in the College of Electrical Engineering and Computer Science, the Interdisciplinary Program of EECS offers bachelor’s degree. Presently the program does not intend to receive International Students.
Special Features of the program
Through rigorous training in both EE and CS, we educate professionals in hopes of enhancing the competitiveness of Taiwan on the international stage by upgrading to an even higher value-added industry. The curriculum of this undergraduate program covers the basic principles of advanced technologies including computer information theory, internet, multimedia, communication, control, energy, biomedical electronics, IC design, and photonics, nanometer semiconductor.
Professor (Ph.D., Cambridge University) Operating Systems; Computer Networks; Mobile Computing; Distributed Systems; Ad Hoc Networks; ITS; Social Media; Interdisciplinary
Professor (Ph.D., University of New Mexico) Image data compression, Information security and cryptography, Video communication, Image processing, Game theory
Associate Professor ( Ph.D., National Chiao Tung University, Taiwan; M.S., Penn State University, USA ) Memory circuit design, Low-power & low-voltage circuit designs, Nano-scale circuit designs, Design for manufacturing
Professor( Ph.D. in materials science and engineering, University of Texas, 1981) Silicon photonics, Optical thin film, Light extraction structure for LED
Associate Professor (Ph.D., University of Edinburgh, Britain, 2004) Analog VLSI design, Probabilistic neural computation in VLSI, Neuromorphic engineering, biomedical chips
Associate Professor( Ph.D. in physics, University of Colorado,2012) High power ultrafast laser system, High harmonic generation (HHG), Attosecond generation and measurement, EUV light source, EUV imaging
Assistant Professor (Ph.D., University of Southern California) Web intelligence, Multimedia retrieval, Meta-search, Realtime queries for continues data streams
Professor ( Ph.D., Cornell University ) Wireless Communications, Information Theory, Optical Queueing Theory, High-Speed Switches, Network Science, Game Theory
Professor (Ph.D in University of Southern California) Wireless Communications, Signal Processing for Statistical and Biology, Signal Processing for Communications and Networking
Assistant Professor (Ph.D., University of California, San Diego, UCSD) Clouding computing, high-performance computing, distributed systems, storage systems, DDoS and routing
Associate Professor ( Ph.D., National Chiao Tung University, ROC ) CMOS imaging sensor IC、Analog front end (AFE)、Smart sensor with image application、Analog & mixed-mode IC
Professor (University of Illinois at Urbana-Champaign(UIUC)) Compound Semiconductor materials and optoelectronics materials growth and device processing material/Device characterization
Professor (Ph.D. degree from the EECS department in 2003 at the University of Michigan) MMIC/RFIC; High-speed Device Characterization and Modeling; Low-frequency Noise Measurement and Analysis; High Power, High Temperature Devices and Circuits
Professor ( Ph.D., EE Dept., Rensselaer Polytechnic Institute, New York, USA ) High Performance Computer Systems, Computer Architecture, Interconnection Network, SoC System Architecture and Design, VLSI Design, Power Devices
Associate Professor( Ph.D. in electrical and computer engineering, Purdue University,2008) Nanoplasmonics, Optical and MMW arbitrary waveform generations, Applications of optical frequency combs, Nonlinear optics
Associate Professor (Ph.D., National Tsing Hua University) VLSI/SOC design and testing; Platform-based high-level evaluation, synthesis and integration methodology for VLSI/SOC systems; Many-core systems;Security/Cryptography VLSI design
Professor ( Ph.D., National Central University, Taiwan ) Analog Integrated Circuit, Mixed-Signal Circuits for Communication, Power Management and Biomedical Applications
Associate Professor( Ph.D. in department of electrical engineering, University of California, 2007) Organic and biopolymer materials devices, Plasmonics, Metamaterials, Optical communications
Associate Professor ( Ph.D., Texas Tech University, Lubbock, Texas, USA, 1990 ) Medical image/signal processing, Neural networks and fuzzy systems, Power & Energy, Microprocessor/DSP applications software and hardware design
Professor (Ph.D., Indiana University) Optimizing compiler, System software for low-power and embedded systems, Object-oriented parallel languages, Computer architectures, Pervasive computing
Associate Professor( Ph.D. in electrical engineering, University of California, 2005) Micro-opto-electro-mecanical system, Nonlinear silicon photonics, High-speed CMOS photonics components, III-V, Ge on Si optoelectronics, Microfludic and bio-photonics
Professor( Ph.D. in Institute of Electro-Optical Engineering, National Chiao Tung University, 2004) Nonlinear physics: pattern formation, solitons, Quantum information, quantum phase transitions of light
Professor (Ph.D., University of Illinois, Urbana-Champaign) Physical design automation of VLSI, High level synthesis of VLSI, Applications of internet with emphasis on WWW
Associate Professor ( Ph.D., University of California, Santa Barbara (UCSB), USA ) Electronic Design Automation, Testable Design, Many Core Systems, Delay Testing, Statistical Timing Analysis
Assistant Professor (Ph.D., University of California, Los Angeles) Analog IC design, RF/THz devices, Circuits and systems, Ultra low power wireless circuits and systems, Reconfigurable radio
Professor ( Ph.D., University of Southern California, USA ) Error-correcting Codes, Digital Communications, Systems Bioinformatics, Quantum Computation and Quantum Communications
Associate Professor ( Ph.D., National Taiwan University, Taiwan ) Communications System Design and SoC Implementation Energy Efficient Signal Processing, Biomedical Signal Processing and Applications
Professor (Ph. D., University of California at Berkeley) Microelectronic system design and applications, Optimization-based design, Multicore design automation
Professor (Ph. D., UC Berkeley, Electrical Engineering and Computer Science) Physical synthesis, IC timing analysis and optimization, Logic verification, Digital signal processing and application, High-tech entrepreneurship
Professor (Ph.D. in electrical engineering, Pennsylvania State University.,1989) Optical components/devices for communication, Optical waveguide design and computation, Optical Fiber sensors, Backlight modules for LCD display, Solar cell
Associate Professor (Ph.D in University of Southern California) Signal Processing for Communications, Communications Theory, Communication System IC Design
Professor ( Ph.D., Electrical Engineering and Computer Science, University of Illinois at Chicago, Illinois ) Power Electronics, Control, Signal Processing, Microprocessor System
Professor (Ph.D. California Institute of Technology, USA, 1987) Theory of graphene or semiconductor based nanostructures/nanodevices, quantum computing/communications
Associate Professor (PH.D., National Chiao Tung University) Mobile telecommunications networks, Mobile computing, Wireless internet, Computer telephony intergration, VoIP, Performance modeling
Professor (Ph.D., University of Illinois) Analysis of algorithms, Computational complexity, Communication complexity, Cryptographic protocols, Quantum Computing
Curriculum
Courses offered in the Program
Differential Equations and Complex Variables (Undergraduate, 3 credit hours, every semester)
Linear Algebra (Undergraduate, 3 credit hours, every semester)
Discrete Mathematics (Undergraduate, 3 credit hours, once a year)
Modern Physics (Undergraduate, 3 credit hours, once a year)
Electromagnetics (Undergraduate, 3 credit hours, every semester)
Electric Circuits (Undergraduate, 3 credit hours, every semester)
Logic Design Lab (Undergraduate, 2 credit hours, once a year)
Microelectronics Labs (Undergraduate, 2 credit hours, once a year)
Electronics (Undergraduate, 3 credit hours, every semester)
Logic Design (Undergraduate, 3 credit hours, once a year)
Introduction to Programming (Undergraduate, 3 credit hours, every semester)
Microcomputer Systems (Undergraduate, 2 credit hours, once a year)
Embedded System Laboratory (Undergraduate, 3 credit hours, once a year)
Data Structures (Undergraduate, 3 credit hours, once a year)
Probability (Undergraduate, 3 credit hours, every semester)
Statistics (Undergraduate, 3 credit hours, once a year)
Introduction to Semiconductor Industry (Undergraduate, 3 credit hours, Not Regularly Offered)
Introduction to Optoelectronic Engineering (Undergraduate, 3 credit hours, once a year)
Optoelectronic Engineering II (Undergraduate, 3 credit hours, once a year)
Electromagnetic Waves (Undergraduate, 3 credit hours, once a year)
Analog Integrated Circuits Analysis and Design (Undergraduate, 3 credit hours, every semester)
Introduction to Solid-State Electronic Devices (Undergraduate, 3 credit hours, every semester)
Optoelectronic Devices (Undergraduate, 3 credit hours, once a year)
Computer Architecture (Undergraduate, 3 credit hours, once a year)
Control Systems (Undergraduate, 3 credit hours, once a year)
Signals and Systems (Undergraduate, 3 credit hours, every semester)
Communication Systems (I) (Undergraduate, 3 credit hours, every semester)
Introduction to Computer Networks (Undergraduate, 3 credit hours, once a year)
Introduction to Digital Signal Processing (Undergraduate, 3 credit hours, once a year)
Digital Signal Processing Lab (Undergraduate, 2 credit hours, every semester)
Introduction to Image and Video Processing (Undergraduate, 3 credit hours, once a year)
Electric Machinery (Undergraduate, 3 credit hours, once a year)
Electric Machinery Laboratory (Undergraduate, 2 credit hours, once a year)
Special Topic on Implementation (I) (Undergraduate, 1 credit hours, every semester)
Special Topic on Implementation (II) (Undergraduate, 2 credit hours, every semester)
Partial Differential Equations and numerical methods (Undergraduate, 3 credit hours, once a year)
Special Topics in Power Engineering : Power Processing (Undergraduate, 3 credit hours, Not Regularly Offered)
Special Topics in Biomedical Electronics : Introduction to Biological Systems and Electronics (Undergraduate, 3 credit hours, once a year)
Introduction to Semiconductor Physics (Undergraduate, 3 credit hours, Not Regularly Offered)
Introduction to Quantum Physics (Undergraduate, 3 credit hours, once a year)
Principle of Lasers (Undergraduate, 3 credit hours, once a year)
Optics and photonics laboratory (Undergraduate, 2 credit hours, every semester)
Advanced photonics laboaratory (Undergraduate, 2 credit hours, once a year)
Device Characteristics and Circuit Design (Undergraduate, 3 credit hours, Not Regularly Offered)
Introduction to Microwave Circuits (Undergraduate, 3 credit hours, Not Regularly Offered)
Electronic Circuit Design (Undergraduate, 3 credit hours, once a year)
IC Design Laboratory (Undergraduate, 3 credit hours, once a year)
Introduction to Integrated Circuit Design (Undergraduate, 3 credit hours, once every two years)
Biomedical VLSI Design (Undergraduate, 3 credit hours, once a year)
Solid-State Electronics Laboratory-Semiconductor Processing (Undergraduate, 2 credit hours, once a year)
Introduction to Biomedical Imaging (Undergraduate, 3 credit hours, once a year)
Introduction to chaos (Undergraduate, 3 credit hours, once a year)
Communication Electronics (Undergraduate, 3 credit hours, every two years)
Communication Systems II (Undergraduate, 3 credit hours, every semester)
Communications System Laboratory (Undergraduate, 2 credit hours, once a year)
Power Systems I (Undergraduate, 3 credit hours, once a year)
Industrial Power Distribution System (Undergraduate, 3 credit hours, once every two years)
Electric Machinery Control (Undergraduate, 3 credit hours, once a year)
Undergraduate Research (I) (Undergraduate, 1 credit hours, every semester)
Undergraduate Research (II) (Undergraduate, 1 credit hours, every semester)
Special Topics in Biomedical Electronics: Clinical Application of Medical Electronic Device (Undergraduate, 3 credit hours, once a year)
System theory (Undergraduate, 3 credit hours, once a year)
Digital Signal Processing (Undergraduate, 3 credit hours, once a year)
Advanced Electric Network Analysis (Undergraduate, 3 credit hours, once a year)
Switching Mode Power Converters (Undergraduate, 3 credit hours, once a year)
Principles of Biomedical Ultrasound and Photoacoustics (Undergraduate, 3 credit hours, once a year)
Computational Neuroscience (Undergraduate, 3 credit hours, once a year)
Image Processing (Undergraduate, 3 credit hours, once a year)
Analysis and synthesis of digital audio signals (Undergraduate, 3 credit hours, once a year)
Video Signal Processing (Undergraduate, 3 credit hours, once a year)
Introduction to Programming(I) (Undergraduate, 3 credit hours, once a year)
Discrete Mathematics (Undergraduate, 3 credit hours, once a year)
Digital Logic Design (Undergraduate, 3 credit hours, once a year)
Linear Algebra (Undergraduate, 3 credit hours, once a year)
Software Studio (Undergraduate, 2 credit hours, once a year)
Engineering Mathematics (Undergraduate, 3 credit hours, once a year)
Introduction to Computer Networks (Undergraduate, 3 credit hours, once a year)
Introduction to Communication (Undergraduate, 3 credit hours, on irregular)
Operating Systems (Undergraduate, 3 credit hours, once a year)
Design and Analysis of Algorithms (Undergraduate, 3 credit hours, once a year)
Circuits and Electronics (II) (Undergraduate, 3 credit hours, once a year)
Introduction of Integrated Circuit Design (Undergraduate, 3 credit hours, once a year)
Cryptography and Network Security (Undergraduate, 3 credit hours, once a year)
Scientific Computing (Undergraduate, 3 credit hours, once a year)
Introduction to Image Processing (Undergraduate, 3 credit hours, on irregular)
System Integration Implementation II (Undergraduate, 1 credit hour, once a year)
Introduction to Embedded Systems (Undergraduate, 3 credit hours, once a year)
Introduction to Computer (Undergraduate, 2 credit hours, on irregular)
Competitive (Undergraduate, 3 credit hours, on irregular)
Introduction to Computer-Aided Design of Integrated Circuits (Undergraduate, 3 credit hours, on irregular)