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Hanyang MS/PhD Scholarship Program
for Engineering Major Students
■ Description
Hanyang MS/PhD scholarship program is designed to invite qualified undergraduate
students from overseas universities who wish to extend their academic horizons to graduate-
level degrees. This implementation plan is intended for Hanyang University to establish a
program of educational cooperation with overseas universities.
■ Host Institution
• College of Engineering, ERICA campus, Hanyang University
■ Benefits
• 100% Enrolment & Tuition fees waiver
• Monthly grant of 500~600 USD
• On-campus accommodation (Student Residence Hall, with payment)
■ Eligibility
• Undergraduate students majoring in Engineering
• Sufficient knowledge of English to be able to study in English
■ Courses
• Integrated MS-PhD
• Doctoral
■ Field of Studies
• Mechanical Engineering
• Electronics & Communications Engineering
• Electronics Systems Engineering
• Bionano Engineering
• Architectural Engineering
• Computer Science & Engineering
• Materials Engineering
■ Inform
• Profes
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arch results
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• Professor Jong-In Shim: Department of Electronics & Communications Engineering
Semiconductor Photonics Laboratory (SPL) studies the interaction between electromagnetic wave and matter especially in semiconductors, thereby elucidating the principles, discovering new functionalities, and improving the performances of semiconductor optoelectronic devices. Semiconductor optoelectronic devices that we study include light-emitting diodes, diode lasers, photodetectors, photovoltaic devices, optical modulators, optical amplifiers, optical switches, and electromagnetic waveguide devices. In order to control operational speed, linearity, output power, temperature property, and noise characteristics of these devices, we perform researches on the development of new measurement techniques, analysis of device performances, and design of device structures as well as packages. Recently, our researches are focused on light-emitting diodes (LEDs). We utilize various tools that examine electrical, optical, thermal, mechanical, and material characteristics. While the industry concentrates on manufacturing technologies, the SPL is developing new analysis and measurement techniques/equipment and fostering professionals with these specialties. To achieve these goals, we are making efforts to construct human networks of different research areas such as electrical engineering, physics, materials science, and mechanical engineering and eventually a long-term relationship of industry-academia cooperation.
Fields Research Topics Recent research results
Design Technology of Light- Emitting Diodes
3-dimensional circuit modeling
3-dimenisonal optoelectronic performance analysis
3-dimensional thermal analysis
[Subjects] Undergraduate: Physical Electronic, Transmission Line Theory, LED
Engineering
Graduate: Advanced Semiconductor Physics, EM Waveguide Theory, Quantum Electronics
[Research Interests] Semiconductor Optoelectronic Devices, LED, Solar Cell,
Semiconductor Laser, Modulator, Photodiode, Amplifier, Switch,
Optical/RF Waveguide, interconnection, packaging
Email: [email protected] Tel: 031-400-5179
Semiconductor Photonics Laboratory (Professor Jong-In Shim) Homepage: http://spl.hanyang.ac.kr/
High speed interface
Sensor readout
technology
Current-Voltage, Voltage-Capacitance
Internal Quantum Efficiency Measurement
ER & PC Spectroscopy
Wafer-level Optoelectronic Performance Characterization
Originally developed techniques and home-made characterization systems
Optical Inter-
connection
Design and modeling of semiconductor optoelectronic devices
Electromagnetic waveguide design & analysis
Transmission performance characterization
• Professor Jin-Seok Park: Department of Electronics Systems Engineering
Our research laboratory has developed thin films and nano-structured materials for their applications to electronics, medical, and environmental engineering. Our recent research interests have been focused on oxide-based semiconducting thin films for transparent flat-panel displays and carbon-based nano-materials, such as carbon nanotubes (CNTs) and graphene, for micro-sized X-ray tubes and transparent electrodes.
In the oxide-based thin film area, we have developed a novel mask-reduction fabrication method for transparent thin film transistors (TFTs). Also, we have proposed a double-channel TFT that shows a higher on/off current
[Subjects] Undergraduate: Fundamentals of Semiconductor Electro-Physics, MicroElectronic Devices, Nano Devices and Process, etc.
Graduate: Flat-Panel Display Materials and Devices, Nano Materials and Devices, Thin Films and Device Applications, etc.
[Research Interests] Thin films (semiconductors, metals, oxide-compounds, etc.) and nano-structured materials (carbon nanotubes, grapheme, etc.) for electronic and medical applications, Oxide-based TFTs for transparent flexible displays, CNT field emitters for micro-focused X-ray tubes, etc.
Email: [email protected] Tel: 031-400-5166 Homepage: http://tfd.onlinepowers.com
Thin Films and Nano Devices Laboratory (Professor Jin-Seok Park) Homepage: http://tfd.onlinepowers.com
ratio. Recently, we are studying In-free oxide thin films for replacing conventional In-incorporated thin films such as ITO (In-Sn-O) and IGZO (In-Ga-Zn-O).
In the carbon-based nano-material area, we have developed a CVD technique with which CNTs can be grown on a tip-type substrate. We have investigated a method to enhance the electron-emission performance of CNTs by coating several surface layers with low work functions. Also, we have proposed an efficient method that can assure the long-term (up to 50 h) emission stability of CNTs. Currently, we are investigating various direct deposition methods of CNTs, such as electrophoretic deposition, spray, and dip-coating, for the X-ray applications of CNTs. Furthermore, the synthesis of CNTs-grapheme composites is being studied for their use in transparent electrodes.
Fields Research Topics Recent research results
Mask-reduction and In-free
oxide thin films in transparent
TFTs
Optimal design of GTM (grey-tone mask)
Etch selectivity of oxide thin films 2-mask and 3-mask fabrication
processes for transparent oxide TFTs Deposition of Si-incorporated ZnO
(SZO) thin films and fabrication of SZO-based TFTs
Characteristic-enhancement of
oxide TFTs
Enhancement of material properties and TFT characteristics by In-situ gas injection and plasma post-treatment
Development of a novel oxide TFT with a double-channel by using a two-step deposition method
A study on charge trapping mechanisms in oxide TFTs
Enhancement of electron-
emission properties of
CNTs by coating of
surface layers and interlayers
A direct growth of CNTs on micro-tip substrates using ICP-CVD
Enhancement of electron-emission properties of CNTs by coating of surface layers with low work functions
Enhancement fo long-term emission stability of CNTs by deposition of interlaters
Development of miro-focused X-ray tubes using CNTs
with high emission-
capability and long-term stability
Development of miro-focused X-ray tubes using CNTs
Development of point-type electron sources using multi-arrayed CNTs
Achievement of high-resolution X-ray images from CNTs
Development of CNT-based field emitters with high emission currents and long-term stability using plastic substrates (cellulose and polyester) with high absorbance
• Professor Byung-il Kwon: Department of Electronics Systems Engineering
Energy Conversion System Lab has interests to research (optimal) design, analysis and finally control for electrical machines like motor, generator and actuator. In design fields, we are studying various research for design of electrical machines like permanent magnet machines, inductors and so on. We are also researching on optimal design as detail design to improve main electrical property. And applied research in the fields of optimal design, we are studying on axial flux type PMSG, transverse type SRG, and doubly fed IG for wind turbine generator also we are doing research into permanent magnet machines like SPM & IPM for home appliances and industrial motor. Especially, we are studying on high efficiency and power machines as concentrated flux type, variable flux type. In analysis fields, we make a study on various research to analysis electrical machines like Novel SPM, Novel 2-phase PMSM, Double stator machines and Induction heater with equivalent circuit and finite –element analysis. We carry out a study of electrical machines, dissipation, heat and structure analysis through finite-element analysis. In control fields, we are doing research for electrical machine drive and control algorithm. Concretely, three phase hysteresis control for PMSM, PWM of BLDC drive for reducing switching loss, multi degree-of- freedom machine’s location control, and sensorless control of SRM. Specially, we have performed many projects with Thomas. A. Lipo (Professor of the Wisconsin University – Madison) who is a world scholar on motor and electronics engineering fields. The result of our effort for internationalization, the foreigner students from China, Pakistan, Bangladesh and Iran are studying with us. We provide a positive environment where all researchers can concentrate on their studying with supported tuition & activity cost, and provided dormitories.
Fields Research Topics Recent Research Results
(optimal) design
Basic Design for Electrical Machines (BLDC, BLAC, Induction, SR Machines) Optimal Design for improving
electrical property
[Subjects] Undergraduate: Electric Machines, Engineering Electromagnetics, Electro-Mechanical Energy Conversion,
Graduate: AC Machine Design [Research Interests] Numerical analysis (FEM) and application in electromagnetic field, Analytical method (Magnetic equivalent circuit method) and application in electromagnetic field, Servo motor (BLDC, SRM) design and control, Magnetization system analysis and design for Permanent Magnet Email: [email protected] Tel: 031-400-5165
Homepage: httpanyang.ac.kr/
Energy Conversion System Laboratory (Professor Byung-Il Kwon) Homepage: http://elecma.hanyang.ac.kr/
• Professor Han-Seung Lee: Department of Architectural Engineering
Han-Seung Lee’s lab, building materials and construction. Major areas of research of concrete durability, high
strength and high performance concrete, eco- building materials. Durable sector is to find the causes for the degradation phenomena that changes in physical properties due to the external factors that affect the performance of the material when building material is exposed to the ambient environment for a long time. In the lab, study durability mechanics of concrete on carbonation, chloride attack, corrosion and anti-rust,
Analysis
Various research to analysis electrical machines with equivalent circuit and finite –element analysis (Novel SPM, 2-phase PMSM, double stator machines and induction heater) Electrical machines,
Dissipation, Heat and structure analysis
Control
Three phase hysteresis control for PMSM
PWM of BLDC drive for reducing switching loss
Multi degree-of- freedom machine’s location control Sensorless Control of SRM
[Subjects] Undergraduate : Building Material, Material and Structural method 1,
Experiment for Architectural Materials
Graduate : Concrete Engineering, Durability Design, Science of Building Material
[Research Interests] Building material, Cement & Concrete, High Performance Concrete,
Concrete Durability, Rehabilitation, Repair, Construction, CO2
Reduction
Email: [email protected] Tel: 031-400-5181
Homepage: http://abmcl.hanyang.ac.kr/
Sustainable Building Material Construction Laboratory (Professor Han-Seung Lee)Homepage: http://abmcl.hanyang.ac.kr/
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• Professor Young Shik Moon: Department of Computer Science & Engineering
Our research interests include multimedia applications, video indexing, object segmentation, image retrieval, object detection and tracking, image enhancement, computer vision, and pattern recognition. We carried out researches on automatic techniques for image segmentation and text extraction, and content-based image retrieval method by using image segmentation techniques. In the object detection and tracking, we have developed robust techniques for face and eye detection. Recently, we study on real-time multiple target detection and tracking method using GPU. In the image enhancement area, we have developed various techniques such as color reproduction under a dim light condition, deblurring for reducing shake, denoising for reducing noise occurred during image capture or transmission, super resolution for resolution enhancement, and image inpainting. In addition, we have researched various pattern recognition and classification technologies, such as hand gesture recognition, facial expression recognition, adult image classification, and threat targets recognition and classification. Furthermore, we study on various image processing technologies through industry-academic cooperation activities.
Fields Research Topics Recent research results
Object segmentation
and Image
retrieval
Object segmentation Text extraction Image composition Content-based image retrieval
Object detection
and tracking
Face detection Eye detection Real time multiple targets tracking IR target detection and tracking
[Subjects] Undergraduate: Multimedia information processing, Computer graphics
Graduate: Topics in computer vision
[Research Interests] Multimedia applications, Video indexing, Image retrieval, Object
detection & tracking, Object segmentation, Image enhancement,
Computer vision, Pattern recognition
Email: [email protected] Tel: 031-400-5196
Homepage: http://visionlab.hanyang.ac.kr/
Computer Vision and Pattern Recognition Laboratory (Professor Young Shik Moon)
Homepage: http://visionlab.hanyang.ac.kr/
Image enhancement
Color reproduction Deblurring Denoising Super resolution Image inpainting
Pattern recognition
Hand gesture recognition Facial expression recognition Adult image classification IR target classification Augmented reality
Computer vision
Machine vision for bridge inspection Digital exposure simulator
• Professor Caroline Sunyong Lee: Department of Materials Engineering
Multifunctional materials are an exciting group of materials that can repond to the need of advanced materials technologies. The term ‘Multifunctional’ refers to all materials that have multiple functions, e.g. magnetic, electronic, optical and etc. It also covers application of these materials into devices. These materials have the potential for a huge impact on our technology – increasing performance, reliablity and flexibility of devices. As a part of the education in materials engineering, this program helps students to understand fundamental properties of various materials so that they can design and fabricate multifunctional materials Multifunctional materials and Devices include ferroelectric materials, functionally graded materials, composite materials and Micro/Nano Electro Mechanical Systems (MEMS/NEMS)
[Subjects] Undergraduate: Materials Science, Electroceramics, Microelectronic Devices,
Micro-/Nano- Fabrication
Graduate: Micro Nano Materials System, Polymer Materials
[Research Interests] Functional Gradient Materials, Nanomaterial Synthesis,
Inkjet Printing Technology, Nano Particle Deposition System,
Dye Sensitized Solar Cell
Email: [email protected] Tel: 031-400-5221
Homepage: http://mfmd.hanyang.ac.kr/
Multi-Functional Materials and Devices Lab. (Professor Caroline sunyong Lee)
Homepage: http://mfmd.hanyang.ac.kr/
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