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We have 81 Communications Engineering PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in the UK
Communications Engineering PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in the UK
We have 81 Communications Engineering PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in the UK
PhD candidates in Communications Engineering research the technologies we use to communicate with one another, such as mobile networks, internet, radio and audio-visual appliances. Research in the field seeks to improve and maintain high-speed data transmission services, used for anything from interpersonal phone calls to space-based satellite communication.
What’s it like to study a PhD in Communications Engineering?
As a PhD student in Communications Engineering, much of your time will be spent conducting lab-based research, working on your thesis and attending supervisory meetings. You’ll likely work as part of a research group, either under a single supervisor or supervisory team. Your research may include employing a range of technologies such as signal processing, machine learning and optical systems.
Possible research areas include:
- Space to ground laser communication
- Radar antenna systems
- The Internet of Things (IoT)
- Advanced cellular communication technology
- Social networking
- Machine-to-machine communication
You may also be provided with training in areas such as research methodologies and presentation skills, and have the opportunity to attend conferences, publish papers and teach undergraduate students.
PhD in Communications Engineering entry requirements
The minimum entry requirement for a PhD in Communications Engineering is usually a 2:1 undergraduate degree in a relevant engineering or computing discipline. A Masters may occasionally be required.
PhD in Communications Engineering funding options
The main body funding PhDs in Communications Engineering in the UK is the Engineering and Physical Sciences Research Council (EPSRC). Projects will almost always have funding attached, meaning that successful applicants will automatically be awarded coverage of tuition fees, a living cost stipend, and often an extra research grant.
It may be possible to self-fund a PhD in Communications Engineering, but this is uncommon. Students who self-fund an Engineering or Computer Science PhD generally do so through combining the UK’s doctoral loan with additional sources of funding such as support from their university or from a charity or trust.
PhD in Communications Engineering careers
Communications Engineering is a field that underlies much of makes modern life possible – meaning that is plenty of demands for experts in the area! You could apply for a specialist position within sectors such as internet and computing technologies, telecommunications or radio, or continue your research career to help develop and improve communications systems.
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Next Generation of Low Power Wireless Communication for Internet of Things
Internet of Things greatly extends coverage area that human being is able to perceive, access, and even control. By connecting various “Things” to the Internet, the physical world is possible to be measured and managed as needed. Read more
Blockchain based Edge Computing for Healthcare Asset Management
Reference number. SCEBE/21SF/021/SN. Aim and Scope. Asset monitoring and tracking in a large healthcare facility is of paramount importance for accurate and real-time information so that the availability of the critical assets can be ensured at the right time and right place to support healthcare delivery. Read more
Machine learning in underwater acoustic communication modems
Machine learning is an approach that is useful when a practical optimisation problem is difficult to describe precisely. This approach has found multiple applications. Read more
Last chance to apply
Circular cyber-physical product as a service (PaaS) infrastructure
A full-time research position (3 years) is available at the Dyson School of Design Engineering, Imperial College London, to participate in a European project with the overall goal of Digital Transition of the Circular Economy. Read more
Investigating cyber-physical power system resilience and operation
Are you interested in studying in a World Top 100 university and a Russell Group university in the UK? We are seeking to appoint a funded PhD student in the area of electrical power and energy systems. Read more
Application of novel sensors to assess vessel, porpoise & dolphin activity during development of a floating wind farm off Blyth, UK
This PhD scholarship is offered by the Aura Centre for Doctoral Training in Offshore Wind Energy and the Environment; a partnership between the Universities of Durham, Hull, Newcastle and Sheffield. Read more
Advanced Free-Space Optical Communication for Reliable Connectivity
A reliable free-space optical communication (FSOC) system should be capable of error-free data transfer between two terminals irrespective of the channel conditions. Read more
Digital user representations and perspective taking in mediated communication
Human social interaction is increasingly mediated by technology, with many of the signals present in traditional face-to-face interaction being replaced by digital representations (e.g., avatars, nameplates, and emojis). Read more
Last chance to apply
Ray-launching algorithms for 5G and beyond
Understanding the radio frequency (RF) channel is essential for wireless communications. For high frequencies like millimetre-waves and Terahertz at which 5G and 6G will be operating, RF propagation channel is dominated by multiple reflections, scattering, diffraction, and atmospheric absorption. Read more
Last chance to apply
Terahertz surface scattering and propagation through inhomogeneous media for the next generation of wireless systems
The frequency range between 0.1 and 3 THz holds promise for a myriad of applications such as high-speed communication and remote sensing. Read more
Physical Layer Security for Industrial Unmanned Aerial Vehicles (UAVs)
Project summary. This project will focus on the security issue facing Industrial Unmanned Aerial Vehicles (UAVs)-based systems. Aims and objectives. Read more
Raman Amplification Enabling Optical Phase Conjugation
Supervisory Team. Periklis Petropoulos; Kyle Bottrill. Project description. Optical nonlinearities are arguably the current limiting factor for telecommunications in solid-core fibre. Read more
Communication applications of hollow-core fibres
Supervisory Team. Periklis Petropoulos; David J Richardson. Project description. This is an opportunity to carry out a PhD at the Communications Systems Lab of the Optoelectronics Research Centre (ORC). Read more
Nonlinear applications of Si-rich SiN photonic waveguides
Supervisory Team. Periklis Petropoulos. Project description. This is an opportunity to carry out a PhD at the Communications Systems Lab of the Optoelectronics Research Centre (ORC). Read more
Ultra-wideband optical transmission systems
Supervisory Team. Periklis Petropoulos; Kyle Bottrill. Project description. This is an opportunity to carry out a PhD at the Communications Systems Lab of the Optoelectronics Research Centre (ORC). Read more