+- آکادمیا کافه (https://www.academiacafe.com/pf)
+-- انجمن: دریافت پذیرش (https://www.academiacafe.com/pf/Forum-%D8%AF%D8%B1%DB%8C%D8%A7%D9%81%D8%AA-%D9%BE%D8%B0%DB%8C%D8%B1%D8%B4)
+--- انجمن: شهریه، کمک هزینه و تماس با استادان (https://www.academiacafe.com/pf/Forum-%D8%B4%D9%87%D8%B1%DB%8C%D9%87%D8%8C-%DA%A9%D9%85%DA%A9-%D9%87%D8%B2%DB%8C%D9%86%D9%87-%D9%88-%D8%AA%D9%85%D8%A7%D8%B3-%D8%A8%D8%A7-%D8%A7%D8%B3%D8%AA%D8%A7%D8%AF%D8%A7%D9%86)
+---- انجمن: موقعیتهای خالی در دانشگاههای خارج از کشور (https://www.academiacafe.com/pf/Forum-%D9%85%D9%88%D9%82%D8%B9%DB%8C%D8%AA%E2%80%8C%D9%87%D8%A7%DB%8C-%D8%AE%D8%A7%D9%84%DB%8C-%D8%AF%D8%B1-%D8%AF%D8%A7%D9%86%D8%B4%DA%AF%D8%A7%D9%87%E2%80%8C%D9%87%D8%A7%DB%8C-%D8%AE%D8%A7%D8%B1%D8%AC-%D8%A7%D8%B2-%DA%A9%D8%B4%D9%88%D8%B1)
+---- موضوع: موقعیت خالی در رشته های مهندسی برق سال 2013 (/Thread-%D9%85%D9%88%D9%82%D8%B9%DB%8C%D8%AA-%D8%AE%D8%A7%D9%84%DB%8C-%D8%AF%D8%B1-%D8%B1%D8%B4%D8%AA%D9%87-%D9%87%D8%A7%DB%8C-%D9%85%D9%87%D9%86%D8%AF%D8%B3%DB%8C-%D8%A8%D8%B1%D9%82-%D8%B3%D8%A7%D9%84-2013)
موقعیت خالی در رشته های مهندسی برق سال 2013 - Shihan - 22-04-2013
PhD Scholarship in Bionic Device Research, Swinburne University of Technology, Australia
Applications are invited for a full-time PhD research project supported by the Australian Research Council and Cochlear Ltd: “Development of an integrated optical-electrical nerve stimulation device.”The bionic ear, which has now helped to improve the hearing of over 200,000 people worldwide, is a great example of Australian innovation success. This project aims to develop the fundamental technology that will underpin the next generation of these devices using a combination of infrared light and electrical signals to stimulate auditory nerves.The position is open to outstanding graduates with a physics or engineering background. You will work with leading industry and academic professionals in a dynamic, multidisciplinary field. A tax-free scholarship of $28,000 p.a. (with top-up) is available to support the successful student.Applications will
need to be submitted via email and include a resume and cover letter, detailing your reasons of interest in the Scholarship.
For further details on the projects and to submit an application please contact:
A/Prof. Paul Stoddart
Industrial Research Institute Swinburne
Swinburne University of Technology
Ph: 1300 368 777 Email: pstoddart@swin.edu.au
.Closing date: 30 April 2013
RE: موقعیت خالی در رشته های مهندسی برق سال 2013 - Shihan - 28-05-2013
Phd Student in Faculty of Electrical Eng. At university of Nottingham, Uk
Applications are invited for a 3 year PhD studentship in the Institute for Biophysics, Imaging and Optical Sciences (IBIOS) within the Faculty of Engineering, University of Nottingham. The studentship covers tuition fees and provides a tax-free stipend for the three-year duration of the project starting at £13,590 pa and increasing with an annual increment.
The Institute of Biophysics, Imaging and Optical Sciences combines state of the art developments in optical technology with curiosity driven research into cellular biology (
). The multidisciplinary research the Institute conducts spans physical scales from sub-cellular to macroscopic tissue levels. Areas of active research include cell biophysics, advance optical and ultrasound imaging techniques and development of novel CMOS cameras. Further, the Institute hosts two platform grants in Bio-imaging and Advanced Ultrasonics and its members are investigators in the EPSRC Centre for Innovative Manufacturing in Regenerative Medicine.
This studentship will be supervised jointly by Dr Amanda Wright and Dr Melissa Mather. Informal enquiries prior to making an application may be addressed to: Dr Wright, email:
amanda.wright@nottingham.ac.uk
. If you are interested in making an application, please contact Dr Wright directly with a covering letter stating clearly how you fulfil the requirements of the studentship, and include a CV and the names and addresses of two academic referees. Interviews will take place at the University of Nottingham. Please quote ref. ENG/666. This studentship will reamin open until filled.
Requirements of the studentship:
i) Students should have, or expect to obtain, a first-class honours degree, or 2(i) with evidence of strong performance in project work, in physics, optical engineering, biomedical engineering or a closely related discipline.
ii) In accordance with Research Council requirements, the studentship is available to home students and also EU students who have been ordinarily resident in the UK for the preceding 3 years.
Application Deadline:Applications accepted all year round:
more information
i) Students should have, or expect to obtain, a first-class honours degree, or 2(i) with evidence of strong performance in project work, in physics, optical engineering, biomedical engineering or a closely related discipline.
ii) In accordance with Research Council requirements, the studentship is available to home students and also EU students who have been ordinarily resident in the UK for the preceding 3 years.
Application Deadline:Applications accepted all year round:
RE: موقعیت خالی در رشته های مهندسی برق سال 2013 - Shihan - 13-06-2013
Phd Position in Smart Radio Access, At university of Twente, Netherlands
CTIT (Centre for Telematics and Information Technology) of the University of Twente in the Netherlands is one of the largest academic ICT research institutes in Europe. Over 475 researchers actively participate in the research programme. Integration of technology-based research and its application in specific domains is a clear focus of CTIT. Your job will be to identify opportunities for the use of network coding in LTE, devise basic operating principles, and provide rigorous performance analysis of the suggested approaches. The research, fully funded for four years, will lead to a PhD thesis in applied mathematics.You have completed a university degree (M.Sc. level), or are about to graduate, in (applied) mathematics, computer science, electrical engineering, or a closely related discipline. You have knowledge of mobile networks and/or of performance evaluation and simulation techniques for stochastic processes.
More information can be obtained from dr.ir. J. Goseling (j.goseling@utwente.nl). Applications can be submitted online, before June 21, 2013.
Please include a curriculum vitae, marks transcripts, and the names and addresses of two referees. We strongly encourage interested applicants to send in their applications as soon as possible.As a PhD candidate you will be offered a fulltime position for four years. The monthly salary is € 2062 in the first year to € 2638 in the final year.
You will participate in the Twente Graduate School (http://www.utwente.nl/tgs/) as well as the PhD programme of the Dutch Network on the Mathematics of Operations Research (http://www.lnmb.nl), that offer advanced courses to deepen your scientific knowledge.
The faculty of Electrical Engineering, Mathematics and Computer Science (EEMCS) comprises three disciplines that shape Information and Communication Technology. ICT is more than communication. In almost every product we use mathematics, electronics and computer technology and ICT now contributes to all of societies’ activities. The faculty works together intensively with industrial partners and researchers in the Netherlands and abroad and conducts extensive research for external commissioning parties and funders
more information
RE: موقعیت خالی در رشته های مهندسی برق سال 2013 - ice - 16-07-2013
Institution: McGill University
Department: Department of Electrical and Computer Engineering
PhD Supervisor: Dr. Z Mi
Application deadline: September 15, 2013
Funding Availability: Available if admitted
Project Title: Growth/synthesis, properties, and device applications of III-nitride nanowire structures
A PhD studentship is available to investigate the properties and device applications of III-nitride nanowire structures in the Nanoelectronics Group (http://people.mcgill.ca/zetian.mi/) at McGill University. The student will join a dynamic team, with special focus on the development of solar fuels and solid state lighting devices/systems using nanowire structures. Brief description of the research work follows.
Group III-nitride compound semiconductors exhibit unique electrical and optical properties, including high electron mobility, large saturation velocity, large electric breakdown field, extreme chemical stability, and direct energy bandgap encompassing the entire solar spectrum. Consequently, they have emerged as the materials of choice for ultraviolet and visible LEDs and lasers, high-power and high-temperature electronics, and future multi-junction solar cells, to name just a few. Due to the lack of native substrates, however, conventional III-nitride planar heterostructures generally exhibit very high densities of dislocations, which severely limit their performance and reliability. In this regard, one aspect of our research program is to investigate the epitaxial growth and characterization of III-nitride nanowire heterostructures, which can exhibit drastically reduced dislocation densities. This study, by designing materials at the atomic scale, promises an entirely new avenue for the development of silicon integrated nanowire electronic, photonic, and biochemical devices. Part of this project is also be related to the development of broadband InAlGaN nanowire heterostructures for both lighting and solar energy devices.
The device applications of III-nitride nanowire structures will be further investigated. Phosphor-free white LEDs, that can be fabricated on low cost, large area substrates and can display high luminous flux, hold immense promise for the emerging solid state lighting and full-color displays. Such devices can be realized monolithically by stacking blue, green and red emitters in a single epitaxial step. They can exhibit much higher quantum efficiency, better color rendering capability, and significantly reduced manufacturing cost and improved reliability, compared to the commercial phosphor-based white LEDs. In this regard, this project is also related to the development of III-nitride nanowire white LEDs, which can exhibit drastically reduced dislocation densities and polarization field and can provide a greater degree of flexibility for sophisticated device engineering, compared to conventional planar heterostructures.
We also seek to elucidate the properties and potential of metal nitride nanowires as building blocks for solar-hydrogen conversion devices. Detailed water splitting and hydrogen generation experiments will be performed on metal nitride nanowire arrays. We will investigate the role of surface states, polarity, and electronic structures on both H2 and O2 evolution, which will be compared with the reaction dynamics derived by atomistic total energy computational modeling based on the density functional theory and nudged elastic band methods, with the objective to establish the guiding principles for the water absorption, the generation of molecular hydrogen, and the water oxidation process on metal-nitride surfaces. The realization of wafer-level photocatalytic water splitting (compared to conventional powder based approaches) promises low cost, high performance, and compact hydrogen production systems that were not previously possible. This study will also lead to exciting discoveries in low dimensional physics, nanomaterials, and photochemistry, and will have broad impact on artificial photosynthesis and carbon-neutral energy.
The student will have full access to state-of-the-art molecular beam epitaxial growth, materials characterization, and device fabrication and measurement equipment. He/she will have ample opportunities to be trained and to gain expertise in materials growth/synthesis, device design, fabrication, and characterization, to system-level integration.
Details about the application process may be found at http://www.mcgill.ca/ece/admissions/graduate/process/apply . If interested, please email your CV and transcripts to zetian.mi@gmail.com before applying.
Department: Department of Electrical and Computer Engineering
PhD Supervisor: Dr. Z Mi
Application deadline: September 15, 2013
Funding Availability: Available if admitted
Project Title: Growth/synthesis, properties, and device applications of III-nitride nanowire structures
A PhD studentship is available to investigate the properties and device applications of III-nitride nanowire structures in the Nanoelectronics Group (http://people.mcgill.ca/zetian.mi/) at McGill University. The student will join a dynamic team, with special focus on the development of solar fuels and solid state lighting devices/systems using nanowire structures. Brief description of the research work follows.
Group III-nitride compound semiconductors exhibit unique electrical and optical properties, including high electron mobility, large saturation velocity, large electric breakdown field, extreme chemical stability, and direct energy bandgap encompassing the entire solar spectrum. Consequently, they have emerged as the materials of choice for ultraviolet and visible LEDs and lasers, high-power and high-temperature electronics, and future multi-junction solar cells, to name just a few. Due to the lack of native substrates, however, conventional III-nitride planar heterostructures generally exhibit very high densities of dislocations, which severely limit their performance and reliability. In this regard, one aspect of our research program is to investigate the epitaxial growth and characterization of III-nitride nanowire heterostructures, which can exhibit drastically reduced dislocation densities. This study, by designing materials at the atomic scale, promises an entirely new avenue for the development of silicon integrated nanowire electronic, photonic, and biochemical devices. Part of this project is also be related to the development of broadband InAlGaN nanowire heterostructures for both lighting and solar energy devices.
The device applications of III-nitride nanowire structures will be further investigated. Phosphor-free white LEDs, that can be fabricated on low cost, large area substrates and can display high luminous flux, hold immense promise for the emerging solid state lighting and full-color displays. Such devices can be realized monolithically by stacking blue, green and red emitters in a single epitaxial step. They can exhibit much higher quantum efficiency, better color rendering capability, and significantly reduced manufacturing cost and improved reliability, compared to the commercial phosphor-based white LEDs. In this regard, this project is also related to the development of III-nitride nanowire white LEDs, which can exhibit drastically reduced dislocation densities and polarization field and can provide a greater degree of flexibility for sophisticated device engineering, compared to conventional planar heterostructures.
We also seek to elucidate the properties and potential of metal nitride nanowires as building blocks for solar-hydrogen conversion devices. Detailed water splitting and hydrogen generation experiments will be performed on metal nitride nanowire arrays. We will investigate the role of surface states, polarity, and electronic structures on both H2 and O2 evolution, which will be compared with the reaction dynamics derived by atomistic total energy computational modeling based on the density functional theory and nudged elastic band methods, with the objective to establish the guiding principles for the water absorption, the generation of molecular hydrogen, and the water oxidation process on metal-nitride surfaces. The realization of wafer-level photocatalytic water splitting (compared to conventional powder based approaches) promises low cost, high performance, and compact hydrogen production systems that were not previously possible. This study will also lead to exciting discoveries in low dimensional physics, nanomaterials, and photochemistry, and will have broad impact on artificial photosynthesis and carbon-neutral energy.
The student will have full access to state-of-the-art molecular beam epitaxial growth, materials characterization, and device fabrication and measurement equipment. He/she will have ample opportunities to be trained and to gain expertise in materials growth/synthesis, device design, fabrication, and characterization, to system-level integration.
Details about the application process may be found at http://www.mcgill.ca/ece/admissions/graduate/process/apply . If interested, please email your CV and transcripts to zetian.mi@gmail.com before applying.
RE: موقعیت خالی در رشته های مهندسی برق سال 2013 - Shihan - 05-08-2013
Phd Scholarship in Electrical Engineering at DTU in Denmark
Responsibilities and tasks
This PhD project will investigate both indirect and direct control methods to alleviate the congestions in future electric distribution networks with high penetration of DERs. The distribution system operators (DSOs) might use dynamic tariffs based on local marginal prices (LMPs) or direct control to influence the responses from DERs. The project is to develop a framework to facilitate the efficient coordination of indirect and direct congestion management methods, develop efficient LMP calculation algorithms to indirectly alleviate congestions induced by the system service, and direct control mechanism to alleviate congestions.
Main tasks
- Modeling of DERs
- Develop LMP algorithms for electric distribution networks with DERs and congestion management methods based on LMPs
- Develop direct control algorithms for congestion alleviation within electric distribution networks with DERs
- Tests of the developed methods and implementation
Candidates should have a MSc in electrical engineering or a similar degree with an academic level equivalent to the MSc in engineering.
Assessment
The assessment of the applicants will be made by Assistant Professor Qiuwei Wu, Associate Professor Arne Hejde Nielsen and Associate Professor Yi Ding.
We offer
We offer an interesting and challenging job in an international environment focusing on education, research, public-sector consultancy and innovation, which contribute to enhancing the economy and improving social welfare. We strive for academic excellence, collegial respect and freedom tempered by responsibility. The Technical University of Denmark (DTU) is a leading technical university in northern Europe and benchmarks with the best universities in the world.
Salary and appointment terms
The salary and appointment terms are consistent with the current rules for PhD students. The period of employment is 3 years.
Further information
Further information may be obtained from Assistant Professor Qiuwei Wu, Tel: +45 4525 3529, e-mail:qw@elektro.dtu.dk, Associate Professor Arne Hejde Nielsen, Tel: +45 4525 3504, e-mail: ahn@elektro.dtu.dk.
more information
Available control position(s) in control and robotics - zargarzadeh - 30-08-2013
This is Dr. Hassan Zargarzadeh a new faculty with electrical and computer engineering (ECE) Southern Illinois University in Carbondale. Our department is seeking for PhD students in the area of control and robotics with strong educational backgrounds. The successful applicants will receive 25% scholarship as well as the tuition waiver. The appointments preferably start by January 2014 (spring semester). Graduated MSc students from Sharif, Amirkabir, Tehran, Khajeh Nasir, and IUST (and other top ranked state universities) with extensive records of publication, practical experience, and research are encouraged to apply. While the visa application process is time consuming, the applicants should be confident that they will be able to make it to be in US by January 2014.
Interested students should send their resume, transcripts, TOEFL and GRE records, list of references and any other suitable documents to me at hassan@siu.edu by September 7[sup]th[/sup]. The positions are open until filled.
We also welcome any students from top ranked universities who whould like to pay their expenses on their own.
My website: http://www.engr.siu.edu/elec/faculty/zargarzadeh.html
The university website: www.siu.edu
Interested students should send their resume, transcripts, TOEFL and GRE records, list of references and any other suitable documents to me at hassan@siu.edu by September 7[sup]th[/sup]. The positions are open until filled.
We also welcome any students from top ranked universities who whould like to pay their expenses on their own.
My website: http://www.engr.siu.edu/elec/faculty/zargarzadeh.html
The university website: www.siu.edu