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Communications Engineering

来源:NTU

 
OVERVIEW

This course is designed for practising engineers and information technologists who wish to improve their knowledge and skills in the generic area of communication engineering or seek specialisation in one of the following three areas: Telecommunications, RF Engineering and Wireless Communications.

PROGRAMME STRUCTURE

A candidate will be admitted to the programme either as a full-time or a part-time candidate at the beginning of an academic year. Classes are conducted in the evening on a semestral basis. The requirements for the degree include satisfactory completion of a total of 30 academic units (AUs). This would typically consist of four core subjects and (i) four electives and a research project of 6 AUs based on which a dissertation must be submitted, or (ii) five electives and an independent study module. Each subject of 3 AUs consists of 39 hours of lectures. Classes for each subject will be held once a week and examinations will be conducted during office hours at the end of each semester.

The minimum and maximum periods of candidature for a full-time candidate are one year and three years respectively. The minimum and maximum periods of candidature of a part-time candidate are two years and four years respectively.

UBJECTS OF STUDY

A) Telecommunications

1) Core Subjects

EE6101 Digital Communication Systems
EE6108 Computer Networks
EE6122 Optical Fibre Communications
EE6124 Satellite, Fixed & Mobile Radio Systems

2) Electives

EE6104 Network Performance Analysis
EE6105 RF Engineering Techniques
EE6107 RF Circuit Design
EE6109 MIC & Printed Antenna Design
EE6125 Network Planning & Management
EE6126 Wireless Multiple Access Communications
EE6127 Wireless Networking
EE6303 Electromagnetic Compatibility & Interference
EE6326 Digital Television Systems
EE6401 Advanced Digital Signal Processing
EE6402 Real-Time DSP Design & Applications
EE6425 Speech Analysis & Processing
EE6427 Video Signal Processing
EE6703 Multimedia Networking
EE6713 Network Design & Simulation
EE6731 Network Programming

B) RF Engineering

1) Core Subjects

EE6105 RF Engineering Techniques
EE6107 RF Circuit Design
EE6109 MIC & Printed Antenna Design
EE6303 Electromagnetic Compatibility & Interference

2) Electives

EE6101 Digital Communication Systems
EE6104 Network Performance Analysis
EE6108 Computer Networks
EE6122 Optical Fibre Communications
EE6124 Satellite, Fixed & Mobile Radio Systems
EE6125 Network Planning & Management
EE6126 Wireless Multiple Access Communications
EE6127 Wireless Networking
EE6326 Digital Television Systems
EE6401 Advanced Digital Signal Processing
EE6402 Real-Time DSP Design & Applications
EE6425 Speech Analysis & Processing
EE6427 Video Signal Processing
EE6703 Multimedia Networking
EE6713 Network Design & Simulation
EE6731 Network Programming

C) Wireless Communications

1) Core Subjects

EE6101 Digital Communication Systems
EE6108 Computer Networks
EE6126 Wireless Multiple Access Communications
EE6127 Wireless Networking

2) Electives

EE6104 Network Performance Analysis
EE6105 RF Engineering Techniques
EE6107 RF Circuit Design
EE6109 MIC & Printed Antenna Design
EE6122 Optical Fibre Communications
EE6124 Satellite, Fixed & Mobile Radio Systems
EE6125 Network Planning & Management
EE6303 Electromagnetic Compatibility & Interference
EE6326 Digital Television Systems
EE6401 Advanced Digital Signal Processing
EE6402 Real-Time DSP Design & Applications
EE6425 Speech Analysis & Processing
EE6427 Video Signal Processing
EE6703 Multimedia Networking
EE6713 Network Design & Simulation
EE6731 Network Programming

Note: Curriculum is subject to changes.

CONTENT OF SUBJECTS

EE6101 DIGITAL COMMUNICATION SYSTEMS
Communication signals and baseband transmission. Digital modulation/demodulation. Error correction coding. Spread-spectrum techniques.

EE6104 NETWORK PERFORMANCE ANALYSIS
Review of probability theory and graph theory. Queuing theory. Networks of queues. Flow and congestion control. Routing-flow allocation. Controlled and random access techniques in data networks. Performance analysis of circuit switching.

EE6105 RF ENGINEERING TECHNIQUES
Transmission line circuit design and S-parameters. Measurements of S-parameters. Active devices and equivalent circuit models. Field and circuit analysis techniques. RF sub-systems engineering. RF transceiver architecture.

EE6107 RF CIRCUIT DESIGN
Amplifier circuits. Oscillator circuits. Detector and mixer circuits. Frequency multiplier and control circuits. Microwave frequency synthesisers. Design exercises using commercial RF CAD tools.

EE6108 COMPUTER NETWORKS
Network protocols and services. Transport protocols and services. Local area networks. Wide area networks and internetworking. Broadband and asynchronous transfer mode (ATM) networks.

EE6109 MIC & PRINTED ANTENNA DESIGN
Microstrip transmission lines. Analysis of passive reciprocal microwave devices. Microwave filter synthesis and design. Basic antenna parameters. Analysis and design of microstrip patch antennas. Microstrip antenna arrays. Printed antennas for modern wireless communications. Design exercises of microwave integrated circuits and microstrip antennas.

EE6122 OPTICAL FIBRE COMMUNICATIONS
Optical fibre waveguides and transmission characteristics. System components. Modulation techniques. Subsystem design. Coherent systems. Measurements. Applications.

EE6124 SATELLITE, FIXED & MOBILE RADIO SYSTEMS
Radio propagation. Path analysis. Terrestrial line-of-sight, tropospheric and mobile radio systems. Satellite communication systems.

EE6125 NETWORK PLANNING & MANAGEMENT
Network performance issues. Network simulation and optimisation. Network operations, control and maintenance. Network administration. Network management database and tools. Capacity planning. Network security and integrity.

EE6126 WIRELESS MULTIPLE ACCESS COMMUNICATIONS
Wireless channel models. Modulation techniques. FDMA/TDMA techniques. CDMA systems. Channel equalisation.
(Knowledge of basic probability, Fourier transform, z-transform and basic matrix algebra will be useful.)

EE6127 WIRELESS NETWORKING
Overview of wireless network protocols. Signalling protocol in wireless networks. Mobile access control protocols in wireless networks. Protocol design strategy for wireless networks and case study. Emerging technologies for wireless networks.

EE6303 ELECTROMAGNETIC COMPATIBILITY & INTERFERENCE
EMC/EMI overview. EMI properties of passive components. Crosstalk and cabling. Grounding. Shielding. Balancing and filtering. Non-linear phenomena. Digital circuit noise and radiation. Electrostatic discharge. EMI emission requirements and test methods. Susceptibility and testing.

EE6326 DIGITAL TELEVISION SYSTEMS
Conventional television systems. Digital video fundamentals. Digital signal compression. Digital audio fundamentals. Multimedia in television. Advanced television systems.

EE6401 ADVANCED DIGITAL SIGNAL PROCESSING
Probability and random processes. Multi-rate digital signal processing. Linear prediction and optimum linear filters. Power spectrum estimation.

EE6402 REAL-TIME DSP DESIGN & APPLICATIONS
Architectures for general-purpose digital signal processors. Peripherals for DSP applications. Development tools for DSP applications. Digital FIR/IIR filter implementations. Fast Fourier transform implementations.

EE6425 SPEECH ANALYSIS & PROCESSING
Fundamentals of speech. Speech enhancement. Dynamic time warping. Hidden Markov models (HMM). Speech recognition and speaker verification systems. Scalar and vector quantization. Linear predictive coding. Transform coding.

EE6427 VIDEO SIGNAL PROCESSING
Video basics. Video signal sampling and rate conversion. Video signal filtering and enhancement. Video coding principles and standards. Emerging video communication systems.

EE6703 MULTIMEDIA NETWORKING
Introduction to multimedia networks. Quality of service and traffic characteristics. Traffic scheduling. Multicasting mechanisms. Resource reservation. Multimedia communication protocols. Networked multimedia applications issues.

EE6713 NETWORK DESIGN & SIMULATION
Introduction to network design. Approaches to network design. Topological network design. Network reliability. Network design simulation. Data analysis.

EE6731 NETWORK PROGRAMMING
Windows NT system-level programming. UNIX system-level programming. Kernel programming. Data communication protocol project.
 
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