PhD in Electrical engineering Scholarships & Power and Electronics Scholarships
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Pursuing PHD in Electrical Engineering requires lots of caliber and focus. You are expected to attend many international conferences, take part in workshops, build a strong network in the industry, know many academia and also publish papers in reputed journals. Doing of these during your PhD in Electrical Engineering scholarships requires adequate funding. This is when scholarship programs become useful.
Topics Covered (PhD in Electrical engineering scholarships)
PhD in Electrical Engineering is a vast domain. There are so many key areas of interest.
This includes power systems, power electrical, control systems, electricity and society, telecommunications & electromagnetics, and signal processing too.
This is not an exhaustive list for your study in electrical engineering and electronics. You need to dig deeper into the topic for your research paper. For instance, if you decide to choose telecommunications and electromagnetics as your core area of focus, you should decide if you are ought to research on high-performance wireless systems, sensory networks, radio systems, computations electromagnetics, microwave communication or radio optimization. The chances of you bagging a PhD in Electrical Engineering scholarship increases when you are focused on a specific are and are technically prepared.
Follow other subjects
Electrical engineering graduates have in-depth knowledge of programming. They may also get involved in programming and building circuits for robotics. There are some scholarships from field of computer science or robotics and physics which may be of your interest.
Funding Opportunities (PhD in Electrical engineering scholarships)
opportunities for PhD in electrical engineering and electronics is vast. There
are so many scholarships to help researchers with a big mission in mind.
However, to make use of these scholarships you should have a paper ready. Or,
at least the title for your work should be prepared. To become eligible for a scholarship
during your PhD in electrical engineering, the following documents must be
You must have a compelling CV.
If you have previous research experience, the chances of you bagging a scholarship are high. Maintain a list of all the papers you have authored. These add more value to the CV.
You should have a GRE score.
You must have a statement of purpose.
You should have a valid TOEFL or IELTS score.
All your original transcripts must be ready. This includes transcripts for the undergrad and postgrad programs you have completed.
Contacting the Professor
Before you contact a professor for your PhD in electrical Engineering, power or electronics scholarship – you must be prepared. Never ask a consent on your first interview. Instead, plan the move carefully. If your supervisor is happy with your work, go ahead and share your CV with him/her. The supervisor will guide you through the process, if he/she is satisfied with your CV, email and statement of purpose.
Stipend During PhD
PhD stipend very from country to country and it also depends upon funding available to the Professor for that specific project. its better to initially ask the Professor funding amount and estimate daily expense of yours. PhD is full time job which means stipend should be enough to cover your expenses. Countries like Estonia are offering scholarships with low PhD stipend as living cost is less as compared to other countries. While, Scholarships stipend offering in UK is very high approximating 2500-3000 pound per month for almost 3-4 years. Stipend of such value is great if you get into research project of your choice.
Directory Updated: March 23, 2020
PhD in Electrical engineering scholarships [complete directory]
Insitu monitoring and inspection of Wire and arc additive Manufacturing
There is two PhD position in antenna technology for 5G and 6G. In the first project, mm-wave bands low channel estimation is important. Simulink will be used for estimation. In the second project, NOMA transmission techniques are part of major research work.
Integrated photonics for second-order nonlinear optics
physics, nanoscience, chemical engineering
The current research project is funded by the Swedish and European Research Council. In this highly research-intensive project, the applicant will develop novel photonic integrated devices using nanofabrication for application in optical communication and frequency comb generation.
In link given, lots or projects of given. For this specific project, find the title same as project title here. Funding is given for international students but differennce of tution fees must be paid by international student
Electromagneti system for 3D printing
Nottingham University, Uk
Materials Science and Engineering, Manufacturing, Electrical Engineering
Surrey University, UK
One or more PhD stipends in Formation control of satellites
Electrical engineering, IT
During the project, firstly, new methods for controlling a constellation of satellites need to be developed. The developed concept shall minimize thrusting the satellites while maintaining the required coverage level. Secondly, methods for onboard autonomy need to be developed, which will be able to supervise the operating conditions of the Attitude Control System and either report back to the constellation operator about any anomalies and perform autonomous objective change and re-configure the constellation.
02 PhD - Smart-Sense project
Smart-Sense will focus on designing sensing systems built by using advanced a-IGZO transistors. The circuit blocks will be designed at TU/e and will then be manufactured on flexible foils in Eindhoven by our project partner Holst Centre/TNO. Two IC design PhD positions are available in the project.
Bayesian Machine Learning for Audio Processing
Electrical engineering, computer science
In particular, our approach is to study computational models of learning and adaptation in brains and apply these ideas to the design of personalization of audio processing applications.
Integrated widely and continuously tunable lasers
Physics, optical science, Electrical engineering
In this project you will realize a novel type of fully integrated widely and continuously tunable laser. Our group has recently invented a new concept for this, which will be your starting point.
PhD Position on Integrated Antenna Concepts
This PhD project aims at developing new integration strategies for antennas operating at 140 GHz. The project will be executed in close collaboration with a worldwide-leading semiconductor company in the area of automotive sensing.
MR controlled hyperthermia cancer therapy
Electrical engineering, Biomedical engineering
In this project, novel control technology will be developed for advanced feed-back control. In context of feedback control, you will be responsible for the real-time tissue properties estimation techniques as basis for the model-based control.
Complete Vehicle Energy Management for Long-Haul Coaches
Math, physics, electrical engineering, system and control, mechanical engineering
The project includes concepts for connected and digitalised fleet management, predictive maintenance and operation in relation to electrification where appropriate to maximise the emissions reduction potential.
Continuous improvement of machines through verified software update
The aim of his/her PhD research project is to investigate a novel device and system concept of photonic artificial intelligence for optically assisted radio beam steering for realizing high capacity and agile beyond 5G cellular communication systems.
This PhD project is a close collaboration between the Computational Science Lab and the Intelligent Sensory Information Systems at the University of Amsterdam; both world-leading labs in vision, learning and computational sciences, situated next to other renowned AI labs like AMLab and ILPS with top AI researchers. This work combines the state-of-the-art research activities of both PIs of the project (Dr Efstratios Gavves and Dr Rick Quax), who will closely supervise you.
Safe Cooperation of Autonomous Vehicles in Mixed Traffic
In this project, you as a PhD candidate will investigate how to design a motion planner for an autonomous vehicle that: (1) deals with mixed-traffic uncertainties and faults to avoid collisions and deadlocks by discriminating between local and propagated faults; (2) estimates these uncertainties and faults in the local motion planning; (3) combines the design of the undertainty estimation, fault detection and isolation and local motion planning.
8 PhD positions in Packaging and Integration of Power Electronics
Electronics, Material science
There are total 08 PhD positions, Follow the link for more details..
Electrical engineering, Energy systems, Physics
The work will mainly be carried out by FEM-based multiphysics simulations, but also includes design and construction of a prototype motor as well as experiments
Ultraviolet Vertical-Cavity Surface-Emitting
Physics, Electrical Engineering
Your major responsibility as PhD student is to pursue your own doctoral studies. You are expected to develop your own ideas and communicate the results of your research orally as well as in written form.
Beyond the concept of Virtual Synchronous Machine control
Power electronics, Power systems, Electrical power engineering
The aim of this project is to propose and investigate control solutions for grid-connected converters for fulfilment of the next generation of grid codes for integration of renewable energy sources
This project will investigate the achievable levels of secure and automated operation of optical networks by addressing the related theoretical and practical challenges. Cognitive network management based on data analytics and machine learning techniques will be at the center of this project.
Data Representation and Machine Learning over Networks
The primary purpose of this position is to conduct a research on the challenges and solution for machine learning over networks with abundant examples from internet-based AI to next-generation mobile communication networks and ML in medical disciplines.
Linearization of basestations
Applied Physics, Electrical engineering
The main focus is to work with linearization of nonlinear components in the basestation transmitter, to enable extremely efficient operation and low power consumption. Digital predistortion techniques will be used to cance the nonlinear amplifiers and mixers in the transmitter chain, which will make it possible to operate the hardware extremely efficient.
PhD in electrical engineering for mechatronic applications
Electrical and electromechanical engineering, control engineering
As a PhD student within this project, your task is to investigate a distributed, adaptive and modular low-level control architecture with digital twin integration for modular collaborative mechatronic applications. This involves modelling the system and developing the control strategy in a simulation environment, e.g., using Matlab/Simulink and Siemens NX.
Human Centric Lighting
Physics, medicine, life sciences, mathematics, electrical engineering, pyschology, architecture
The main research topics are Indoor lighting, Optical design, Appearance & Perception and Metrology. Within each topic, PhD research activities, generating new knowledge, are combined with numerous development projects with lighting companies.
AI-powered visible light sensing and communication systems
Electronic engineering, computer science
For this vacancy, the selected candidate will focus on the system-level research of a robust and secure VLC and sensing network, powered by AI techniques. This includes a thorough review of the state of the arts, the invention of new methods and algorithms, the design of new VLC hardware and software, the implementation of a proof-of-concept system, thorough experimental evaluations of the system in different indoor/outdoor application scenarios, and feasibility demonstration of the system in top venues.
distributed audio signal processing in IoT networks
Electrical engineering, computer science
The research activities will be focused on the design and evaluation of distributed digital signal processing (DSP) algorithms for acoustic echo and feedback cancellation, active noise control, and sound field control in ad-hoc IoT networks .
Predictive control and estimation in sensor-based robot tasks
Model predictive control (MPC) is a natural paradigm for rendering the controller proactive, and central in this PhD project: MPC solves at every time instant an optimal control problem to compute optimal future control actions given a model of the system and its environment.
Right to repair
mechanical, materials, electical, chemical engineering
We want to focus on the different mechanisms in a business to consumer relation that obstruct or facilitate repair and the measures that can be considered to make extended product life cycles a more evident scenario. Innovative business model opportunities and technical bottlenecks that may be overcome by new manufacturing capabilities will be explored in close cooperation with consumer organisations, manufacturing companies and repair communities.
AUTOMATIC OBJECTIVE FITTING OF NEXT GENERATION AUDITORY IMPLANTS
In this project we will research a fully objective fitting process for cochlear implant fitting in clinical practice. Fitting is the determination and on-line adjustment of device processing parameters for optimal speech and music perception. It involves the development of novel test procedures of EEG-based objective measures in the human brain as well as a clinical translation.
Many electricity generation systems are undergoing drastic changes, through rapidly increasing shares of intermittent renewable energy sources (RES) like wind and solar photovoltaics.
Signal processing algorithm design for next-generation neuro-sensor technology
electrical, computer science
It involves novel signal processing algorithm design for next-generation wearable neuro-technology and neuro-sensornetworks.
EEG and audio processing for neuro-steered hearing aids
computer science, electrical engineering
The research at ExpORL is aimed at improving hearing and communication skills of people with a hearing or related impairment. In particular, related to this project, we investigate new auditory measurement methods based on auditory brain evoked potentials for improved diagnostics and hearing instruments.
Silicon Carbide Power Electronics
Physics, Electrical Engineering
This project focuses on the investigation of material and device properties of silicon carbide. Optimization of established device fabrication methods as well as the development of electrical characterization methods will deepen the understanding of current performance limitations of SiC devices.
Modelling power devices for optimising and designing advanced power converter systems
Physics, Electrical Engineering
The focus in this project is on developing models for power semiconductor devices as for example IGBTs, SiC Mosfets or GaN HEMT, which allow to characterise the switching and conduction behaviour/losses. These models should be implemented in a computationally efficient way, so that they can be used in automated optimisation procedures and design tools of power electronic converters.