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研究领域可以是如下领域:
清洁和可再生能源系统
高效能源转换和利用
储能系统
智能能源分配
电力系统和电力电子
3D封装,系统级封装和可印刷电子
生物灵感集成电路和系统
能量收集和绿色集成电路和系统
高速信号完整性电磁兼容性和可靠性
Mm波和太赫兹CMOS IC
智能传感器和高级传感
高级感应
数字媒体处理和应用
智能计算和信息安全
物联网
普及媒体和接口
信号处理理论与系统
大数据和视频分析
自动机器人和智能系统
生物医学成像和信号处理
控制系统技术
机器视觉和计算智能
过程仪表
光波通信和光子学
微波电路,雷达,天线和传播
调制,编码和信号处理
安全通信和网络
无线网络,定位和RFID
太空技术
生物医学设备
生物光子学/纳米光子学
化合物半导体
纳米电子学和纳米技术
显示器和固态照明
MEMS和智能材料
硅/碳/氧化物纳米电子
绿色电子和光子学
特种光纤
为了支持先进的研究,学校拥有九个研究中心,配备先进的先进设备。
关于学费:资助学费和非资助学费分别是32350新币和16700新币。
| 2021 | 2020 | 2019 | 2018 | 2016 | 2017 | 2015 | 2014 | 2013 | 2012 |
| 13 | 11 | 12 | 11 | 13 | N/A | N/A | N/A | N/A | N/A |
课程时长:
| Full-Time | Part -Time | |||
| Programmes | Minimum | Maximum | Minimum | Maximum |
| Doctor of Philosophy | 2 years | 5 years | 3 years | 7 years |
课程推荐:
电气和系统
| No | Proposed Research Project Title | Supervisor | |
| 1. | Distributed Control and Optimization of Smart Grids | Assoc Prof Ling Keck Voon | |
| 2 | Model Predictive Control on a Chip | Assoc Prof Ling Keck Voon | |
| 3 | Hierarchical control strategies of distributed energy storage systems for intermittency management | Asst Prof Tang Yi | |
| 4 |
Controlling Light through Strongly Scattering Media (Electronics and Electrical & Systems) |
Asst Prof (Steve) Cuong Dang | |
| 5 | Data analytics for smart grid stability assessment and control |
Asst Prof Xu Yan | |
| 6 | Coordinated operation and control of networked-microgrids | Asst Prof Xu Yan | |
| 7 | Optimal operation of combined cooling heating power (CCHP) systems | Asst Prof Xu Yan |
电子学
| No | Proposed Research Project Title | Supervisor | |
| 1. | Oxide resistive memory for universal memory application | Assoc Prof Ang Diing Shenp | |
| 2 | Bias-temperature instability of small area MOSFETs | Assoc Prof Ang Diing Shenp | |
| 3 | Development and characterization of CMOS-compatible Gallium Nitride high electron mobility transistors | Assoc Prof Ang Diing Shenp | |
| 4 | Neuromorphic Smart Sensors for Implantable Brain Machine Interfaces | Asst Prof Arindam Basu | |
| 5 | Morphological Learning in Spiking Neurons: A New Hardware Efficient Machine Learning Method | Asst Prof Arindam Basu | |
| 6. | Full-Visible Single Material Nanocrystal Lasers | Asst Prof (Steve) Cuong Dang | |
| 7 | MID-INFRARED PHOTODETECTORS WITH COLLOIDAL QUANTUM DOTS | Asst Prof (Steve) Cuong Dang | |
| 8 | Optoelectronic Devices with Colloidal Nanomaterials | Asst Prof (Steve) Cuong Dang | |
| 9 | Controlling Light through Strongly Scattering Media(Electronics and Electrical & Systems) | Asst Prof (Steve) Cuong Dang | |
| 10 | Fabrication and PL/PLE study of Ge-on-Si photonic materials | Assoc Prof Fan Weijun | |
| 11 | Design of tensile strained Ge-on-Si laser | Assoc Prof Fan Weijun | |
| 12 | Reconfigurable Radio Baseband for Wireless Communication Systems(Electronics and Info-Communications) | Assoc Prof Goh Wang Ling Dr. Liu Xin (Co-supervisor, Principal Investigator in IME) |
|
| 13 | Energy-Efficient and High-Throughput Signal Processing Hardware Platform(Electronics and Info-Communications) | Assoc Prof Goh Wang Ling Dr. Liu Xin (Co-supervisor, Principal Investigator in IME) |
|
| 14 | High Electron Mobility Transistor Structures for High Power RF Devices using Gallium Nitride based wide bandgap Semiconductors on Silicon | Assoc Prof K Radhakrishnan | |
| 15 | Studies on epitaxial growth and characterization of lattice matched InAlN/GaN Heterostructures on silicon for high power applications | Assoc Prof K Radhakrishnan | |
| 16 | Gallium Nitride -based Ultraviolet (UV) photodetectors on Silicon | Assoc Prof K Radhakrishnan | |
| 17 | Microfluidic in vitro model of epithelial cells & their tight junction assessment | Assoc Prof Poenar Daniel Puiu | |
| 18 | Plasma etching of dielectrics for sub-50 nm structures | Assoc Prof Poenar Daniel Puiu | |
| 19 | Development and Characterization of the Polymer-based Thin-film Photovoltaic Solar Cells | Assoc Prof Tang Xiaohong | |
| 20 | MOVPE growths of narrow bandgap semiconductor alloys for mid-infrared photonics | Assoc Prof Tang Xiaohong | |
| 21 | Charge transportations in high efficiency Peroviskite solar cells | Assoc Prof Tang Xiaohong | |
| 22 | High efficient compound semiconductor nanostructures based hybrid organic solar cells | Assoc Prof Tang Xiaohong | |
| 23 | Controllable compound semiconductor nanostructures for photonic applications | Assoc Prof Tang Xiaohong | |
| 24 | MOVPE growth of semiconductor quantum dots for mid-infrared photonics | Assoc Prof Tang Xiaohong | |
| 25 | Carbon Nanotubes Arrays for Field Emission Applications | Prof Tay Beng Kang | |
| 26 | Synthesis of carbon nanotubes and carbon hybrids nanostructures | Prof Tay Beng Kang | |
| 27 | Thin film copper oxide heterojunction solar cell with plasmonic nanostructures | Assoc Prof Wong Kin Shun, Terence | |
| 28 | Negative refraction in metamaterials | Asst Prof Luo Yu | |
| 29 | Ultrasensitive metadevices for biosensing | Asst Prof Luo Yu | |
| 30 | Ultra-fast all-optical switching based on graphene | Asst Prof Luo Yu | |
| 31 | Electrochemical systems for energy harvesting and storage | Asst Prof Lee, Seok Woo | |
| 32 | metal halides based transistors: investigations of charge transport properties and device performance enhancement | Asst Prof Leong Wei Lin | |
| 33 | Studies of electrical properties of self-healable polymer dielectric | Asst Prof Leong Wei Lin | |
| 34 | Interface engineering for efficient and stable perovskite solar cells | Asst Prof Leong Wei Lin | |
| 35 | Organic Photovoltaics from water processable nanomaterials: engineering vertical morphology and investigating the charge transport mechanism | Asst Prof Leong Wei Lin | |
| 36 | Structured functional spheres generated by an in-fibre fluid instability(Electronics and Info-Communications) | Nanyang Asst Prof Wei Lei | |
| 37 | Atomic 2D nanomaterials based wearable/flexible sensing electronics for personal health-monitoring system(Electronics and Info-Communications) | Nanyang Asst Prof Liu Zheng |
信息通信
| No | Proposed Research Project Title | Supervisor | |
| 1. | Data Analytics for Learning Science | Assoc Prof Andy Khong | |
| 2. | Acoustic signal processing and acoustic enhancement technologies | Assoc Prof Andy Khong | |
| 3. | metamaterials and Peridoic structures | Assoc Prof Arokiaswami Alphones | |
| 4. | metamaterial assisted Wireless Power Transfer System | Assoc Prof Arokiaswami Alphones | |
| 5. | Perturbation Analysis on Grating Coupler |
Asst Prof Arokiaswami Alphones | |
| 6. | Human motion retrieval system based on human skeleton extraction |
Assoc Prof Chau Lap Pui | |
| 7. | Contrast Enhanced Vision for Deepwater Monitoring System |
Assoc Prof Chau Lap Pui | |
| 8. | Feature Extraction and Representation for Human Action Recognition |
Assoc Prof Chau Lap Pui | |
| 9. | Machine learning based feature extraction from image and audio signal |
Assoc Prof Jiang Xudong | |
| 10. | High-dimensional, Incomplete And Unbalanced Data Analysis |
Assoc Prof Jiang Xudong | |
| 11. | Sparse Representation and Dictionary Learning for Computer Vision |
Assoc Prof Jiang Xudong | |
| 12. | Ultra low power wireless communication devices for E- sensing in dense cluttered environments |
Assoc Prof Law Choi Look | |
| 13. | Energy efficient large scale wireless sensor network for E- sensing in dense cluttered environments |
Assoc Prof Law Choi Look | |
| 14. | Optimizing Traffic Management of Heterogeneous Wireless Networks |
Assoc Prof Li Kwok Hung | |
| 15. | Security Enhancements for the M2M Communication in the Internet of Things |
Assoc Prof Ma Maode | |
| 16. | Enhancements of Cyber Security for Smart Grid Systems |
Assoc Prof Ma Maode | |
| 17. | Network Optimization for interference Management for Heterogenous Cognitive Networks |
Assoc Prof Soong Boon Hee | |
| 18. | Design of Ambient Wireless Sensor Networks |
Assoc Prof Soong Boon Hee | |
| 19. | Studies robust and energy-efficient cooperative communication systems over fading channels |
Assoc Prof Teh Kah Chan | |
| 20. | Development and study of novel frequency-hopped multiple- access receiver |
Assoc Prof Teh Kah Chan | |
| 21. | Resilience of complex systems: evaluation and enhancement |
Assoc Prof Xiao Gaoxi | |
| 22. | Coevolution of opinions and connections in complex social networks |
Assoc Prof Xiao Gaoxi | |
| 23. | Control and controllability of complex networks and applications |
Assoc Prof Xiao Gaoxi | |
| 24. | Mobile Visual Object Search |
Assoc Prof Yap Kim Hui | |
| 25. | Mobile Media Content and Context Analysis |
Assoc Prof Yap Kim Hui | |
| 26. | Mobile Media Visual Object Search |
Assoc Prof Yap Kim Hui | |
| 27. | Media Content and Context Analysis and Applications |
Assoc Prof Yap Kim Hui | |
| 28. | Understanding human interaction in RGB-D videos |
Assoc Prof Yuan Junsong | |
| 29. | Large-Scale Video Analytics and Search |
Assoc Prof Yuan Junsong | |
| 30. | Reconfigurable Radio Baseband for Wireless Communication Systems(Electronics and Info-Communications) |
Assoc Prof Goh Wang Ling Dr. Liu Xin (Co-supervisor, Principal Investigator in IME) |
|
| 31. | Energy-Efficient and High-Throughput Signal Processing Hardware Platform(Electronics and Info-Communications) |
Assoc Prof Goh Wang Ling Dr. Liu Xin (Co-supervisor, Principal Investigator in IME) |
|
| 32 | Multimaterial fibres for high power mid-wave and long-wave infrared transmission | Nanyang Asst Prof Wei Lei | |
| 33 | Structured functional spheres generated by an in-fibre fluid instability(Electronics and Info-Communications) | Nanyang Asst Prof Wei Lei | |
| 34 | Atomic 2D nanomaterials based wearable/flexible sensing electronics for personal health-monitoring system(Electronics and Info-Communications) | Nanyang Asst Prof Liu Zheng |
1.学术要求:
一般入学要求
获得至少二级以上或同等荣誉学士学位
对于母语不是英语的国际申请人,需要提供良好的托福成绩。 测试日期必须在申请之日起2年内。 雅思也可以用来代替托福。
国际申请者还需要具有GRE成绩。 测试日期必须在您申请之日起5年内或更短。
您需要在线申请附上TOEFL和GRE考试成绩的复印件。 当您在申请中发送时,不需要官方的ETS考试成绩。
2.语言要求:
参考:
| 雅思成绩 | 语言要求很高的学术课程 | 语言要求较低的学术课程 | 语言要求的培训课程 | 语言要求较低的培训课程 |
|---|---|---|---|---|
| 7.5 - 9 | 可接受 | 可接受 | 可接受 | 可接受 |
| 7 | 也许可以接受 | 可接受 | 可接受 | 可接受 |
| 6.5 | 英语学习需要 | 也许可以接受 | 可接受 | 可接受 |
| 6 | 英语学习需要 | 英语学习需要 | 也许可以接受 | 可接受 |
| 5.5 | 英语学习需要 | 英语学习需要 | 英语学习需要 | 也许可以接受 |
移民专业:否
申请费:30新币
申请周期:
电机与电子工程学是工程学重要的分科之一,主要是有关电学、电子学及电磁学方面的研究或应用。电机与电子工程最先是在十九世纪末期在电报机电力传输开始商业化之后开始被认为是一个独立的工程领域。这个新的领域再细分为许多小分支,像是电力工程、电子工程、自动控制、信号处理及电信工程。
