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ENGG 5105 - Computer and Network Security
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ENGG 5202 - Pattern Recognition
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ENGG 5281 - Advanced Microwave Engineering
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ENGG 5282 - Nanoelectronics
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ENGG 5291 - Fiber Optics: Principles and Technologies
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ENGG 5301 - Information Theory
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ENGG 5303 - Advanced Wireless Communications
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ENGG 5402 - Advanced Robotics
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ENGG 5403 - Linear System Theory & Design
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ENGG 5404 - Micromachining and Microelectromechanical Systems
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ENGG 5501 - Foundations of Optimization
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ENGG 5601 - Principles of Biomechanics and Biomaterials
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ENGG 5781 - Matrix Analysis and Computations
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The following table lists the graduate-level lecture courses in Electronic Engineering. About six of them are offered each year. The latest teaching time table can be found in the Graduate School web page. (http://www.gs.cuhk.edu.hk/page/TeachingTimetable)
| Course Code | Course Title | Units |
| ELEG5020 | Advanced Topics in Integrated Circuits and Systems | 3 |
| ELEG5030 | Advanced Topics in Wireless Communications | 3 |
| ELEG5040 | Advanced Topics in Signal Processing | 3 |
| ELEG5050 | Advanced Topics in Solid State Technology | 3 |
| ELEG5060 | Applied Functional Analysis and Approximation Theory | 3 |
| ELEG5150 | Processing of Functional Materials | 3 |
| ELEG5280 | Analog-Digital ASIC Design | 3 |
| ELEG5301 | Photonic Integrated Circuits | 3 |
| ELEG5421 | Audio Signal Processing | 3 |
| ELEG5491 | Introduction to Deep Learning | 3 |
| ELEG5502 | Video Coding Technology | 3 |
| ELEG5520 | Advanced Topics in Optoelectronics | 3 |
| ELEG5550 | Micro- and Nano-Fabrication Laboratory | 3 |
| ELEG5600 | Advanced Perception for Intelligent Robotics | 3 |
| ELEG5620 | Electronic Engineering Seminar | 3 |
| ELEG5723 | CMOS Analog IC Design | 3 |
| ELEG5726 | Power Management IC Design | 3 |
| ELEG5732 | RF Circuits and Systems | 3 |
| ELEG5741 | Digital Processing of Speech Signals | 3 |
| ELEG5753 | Solar Cells and Beyond for Low-carbon Energy | 3 |
| ELEG5754 | Solid-state Sensors and Lighting Systems | 3 |
| ELEG5755 | Optical Communication and Interconnects | 3 |
| ELEG5759 | Innovation, Technology and Management in Modern Engineering | 3 |
| ELEG5761 | Power Converters and Their Grid Applications | 3 |
| ELEG5762 | Neuromorphic Electronics: Materials, Devices and Circuits for Brain-Like Computation | 3 |
| ELEG5763 | Processor Design with RISC-V | 3 |
| ELEG5764 | Artificial Intelligence IC Design | 3 |
| ELEG5765 | Fundamentals of Automotive Integrated Circuits | 3 |
| ELEG5766 | AI in Medical Image Analysis | 3 |
"Faculty Core Course List"
| Course Code | Pairing course | Course Title |
| ENGG 5101 | CNEG 5410 | Advanced Computer Architecture |
| ENGG 5103 | CSCI 5180 | Techniques for Data Mining |
| ENGG 5104 | CSCI 5280 | Image Processing and Computer Vision |
| ENGG 5105 | CSCI 5470 | Computer and Network Security |
| ENGG 5106 | CSCI 5250 | Information Retrieval and Search Engines |
| ENGG 5108 | -- | Big Data Analytics |
| ENGG 5189 | CSCI 6200 | Advanced Artificial Intelligence |
| ENGG 5202 | ELEG 5503 | Pattern Recognition |
| ENGG 5281 | ELEG 5205 | Advanced Microwave Engineering |
| ENGG 5282 | ELEG 5500 | Nanoelectronics |
| ENGG 5291 | ELEG 5610 | Fiber Optics: Principles and Technologies |
| ENGG 5301 | IERG 5154 | Information Theory |
| ENGG 5302 | IERG 5300 | Random Processes |
| ENGG 5303 | IERG 6270 | Advanced Wireless Communications |
| ENGG 5383 | IERG 5240 | Applied Cryptography |
| ENGG 5392 | IERG 5040 | Lightwave System Technologies |
| ENGG 5402 | MAEG 5010 | Advanced Robotics |
| ENGG 5403 | MAEG 5020 | Linear System Theory and Design |
| ENGG 5404 | MAEG 5050 / BMEG 5120 | Micromachining and Microelectromechanical Systems |
| ENGG 5405 | MAEG 5100 | Theory of Engineering Design |
| ENGG 5501 | SEEM 5520 | Foundations of Optimization |
| ENGG 5601 | BMEG 5150 | Principles of Biomechanics and Biomaterials |
| ENGG 5781 | -- | Matrix Analysis and Computations |
*The course list will be reviewed each year
Objective
Electronic engineering is a fast evolving interdisciplinary field. This course consists of the most up-to-date research topics presented by active researchers and experts in the field and strikes a balance between discussions of hardware and software development in electronic engineering. There will be 26 seminars in total, and each seminar contains a 45-minute presentation followed by a 25-minute discussion session. The students are required to attend at least 50% of the seminars and write one report on their learning from one or two specific seminars.
Syllabus
Seminars in the areas of image and video processing, digital signal processing and speech technology, microwave and wireless communications, robotics, perception and AI, photonics and optical communications, solid state electronics and VLSI, ASIC and energy conversion.
Learning Outcome
Upon successful completion of the course, students will be able to
- Stay abreast of latest technological developments in the field of electronic engineering
- Acquire knowledge of research topics related to electronic engineering
- Acquire, enhance, and practice presentation skills
- Develop skills in analytical and reflective thinking
Objective & Syllabus
This course introduces the advanced topics in perception for intelligent robotics. It covers fundamental concepts and techniques of machine vision, robotic image and video processing, sensor fusion for semantic mapping and exploration, pattern recognition, learning and deep neural networks, robotic scenario intelligence, perception and anticipation of human behaviors, and advanced robotic trajectory and task planning. Case studies of successful medical and service robotics are discussed. In the course project, students are required to propose, design and implement a robotic system with intelligent perception to map and explore dynamic environment and interact with human subjects.
Learning Outcome
Upon successful completion of the course, students will be able to
- explain the roles of hardware and software in an intelligent robotic system;
- explain the building elements of a modern intelligent robotic system;
- apply advanced algorithms to navigate robots in dynamic environment and to carry out robotic interactions with human subjects;
- perform experiment studies on intelligent robot hardware and software;
- design and implement a robotic system for intelligent mapping and exploration of dynamic environment and interaction with human subjects.
The Chinese University of Hong Kong
Department of Electronic Engineering
Fast track PhD application for Fall 2020
Due to the COVID-19 (Coronavirus), the study aboard plans of some outstanding students who are holding an admission offer from top overseas universities have been affected.
To help outstanding students to commence their PhD studies as planned, CUHK EE Department now opens a fast track PhD application for Fall 2020.
Full postgraduate studentships will be provided.
The application result will be announced within two weeks.
Application deadline: 30 June 2020
Potential candidates may submit the following application materials to Email住址會使用灌水程式保護機制。你需要啟動Javascript才能觀看它:
- CV, transcripts
- TOEFL or IELTS report
- PhD offer letter from overseas universities
- Potential supervisor and research interest
Email Subject: [Name] + CUHK EE 2020 Fall Fast Track PhD Application
香港中文大学电子工程学系
2020秋博士入学申请快速通道
为支持优秀学子们在疫情或海外签证影响下,能如期入学开始博士研究,本系现开通快速通道,欢迎申请!
提供全额奖学金,承诺两周内回复申请结果。
申请截止日期:2020年6月30日
如何申请?准备如下材料发送到 Email住址會使用灌水程式保護機制。你需要啟動Javascript才能觀看它 即可:
- 简历、成绩单
- 托福或雅思成绩
- 海外博士录取通知书
- 意向导师和研究兴趣
邮件标题请使用如下格式:
[Name] + CUHK EE 2020 Fall Fast Track PhD Application
