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Electrical & Electronic PhD Projects, Programs & Scholarships in Newcastle

We have 13 Electrical & Electronic PhD Projects, Programs & Scholarships in Newcastle

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Showing 1 to 10 of 13
  PhD Studentship in Formal Verification and Synthesis of Cyber-Physical Systems
  Dr S Soudjani
Application Deadline: 1 March 2019
Number of awards. 1. Start date and duration. To start before September 2019 for 3.5 years. Overview. Cyber-physical systems (CPS) are systems of collaborating computational elements controlling physical entities.
  PhD Studentship in Intermolecular charge transport: A novel design paradigm
  Dr T Penfold
Application Deadline: 8 March 2019
Number of awards. 1. Start date and duration. September 2019 for 4 years. Overview.
  PhD Studentship - Graphene-based wireless sensor network for infrastructure monitoring
  Dr T Hallam
Application Deadline: 28 February 2019
Number of awards. 1. Start date and duration. April 2019 or September 2019 for 4 years. Overview. The increasing amount of civil infrastructure and the ageing of existing infrastructure requires their regular inspection and maintenance.
  PhD Studentship - Contribution to the transition to a Customer Led Power Distribution System
  Dr H Patsios
Application Deadline: 28 February 2019
Number of awards. 1. Start date and duration. April 2019 for 3.5 years. Overview. The transition from Distribution Network Operator (DNO) to Distribution System Operator (DSO) is a complex issue with many possible options for restructuring the distribution sector.
  Grid Integration of Doubly-Fed Wind Turbine Generators (Advert Reference: SF18/MPEE/JOVANOVIC)
  Dr M Jovanovic
Applications accepted all year round
The Doubly-Fed Induction Generator (DFIG) is one of the most popular and widely used technologies for wind power applications with limited variable speed ranges (e.g.
  Tapered microstructure fibre and its application for bio-chemical sensing (Advert Reference: SF18/MPEE/WU)
  Dr Q Wu
Applications accepted all year round
Currently there is an increasing demand of human health monitoring due to the development of the society. This requires monitor larger number of analytes and hence it is crucial to develop an efficient and cost effective detection method.
  Achieving an optimal trade-off between power system stability/hosting capacity and energy peak by implementing demand side management in home microgrids (H-MG)s in the neighbourhood systems (Advert Reference: SF18/MPEE/MARZBAND)
  Dr M Marzband
Applications accepted all year round
I am recruiting some PhD students for a project regarding the optimal planning and operation of so many H-MGs in the neighbourhood system (with up to a few thousand customers) with the aim of hosting capacity and voltage stability improvement in the network.
  Creating a Sensor Toolkit using Embroidered Electronics (Advert Reference: SF18/MPEE/DODD)
  Dr L Dodd, Prof D Wood
Applications accepted all year round
Embroidered electronic sensors have received a great deal of interest in recent years. Sensors are a mainstay of modern society but are often large, heavy and bulky.
  The nature of solar plumes and their link to the solar wind (Advert Reference: SF18/MPEE/MCLAUGHLIN)
  Prof J McLaughlin
Applications accepted all year round
The solar wind is the stream of charged particles emanating from the Sun. Highly inhomogeneous in nature, its outflow extends over the Earth and the limit of its influence defines the outer boundaries of the solar system.
  Development of a Wearable Microfluidic Platform Employing Wireless Actuators and Sensors (Advert Reference: SF18/MPEE/TORUN)
  Dr H Torun
Applications accepted all year round
The aim of this project is to develop a wearable microfluidic platform capable of monitoring biophysical parameters simultaneously with manipulating biological fluids.
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