-
This PhD studentship is an exciting, fully funded opportunity to work as part of an internationally renowned scientific and engineering team to develop a new innovative technology to meet and overcome the serious challenges of increasing dissolved organic carbon (DOC) in the UK’s drinking water...
-
at the interface between science frontiers and technological and medical applications. The project will suit an excellent student who enjoys design, practical experimental work, computer modelling and innovative
-
capabilities beyond basic flight. This project aims to advance the real-world applicability of FWMAVs by investigating new bioinspired design and flight approaches. Focuses may include: endurance and payload
-
disciplinary expertise in Psychology with knowledge, experience and creativity to specialize in innovative modes of course delivery, assessment, curriculum design, and scholarship of teaching and learning (SoTL
-
assess the impact of hybrid electric propulsion and system architectures on the design and overall performance of future zero emission aircraft. The research will combine elements of electric power
-
modelling with realistic perturbations dynamics become even more complex. Modern trajectory design aims to identify and exploit features in the natural dynamics to design trajectories meeting mission
-
machine-learning techniques in ST studies. Our approach introduces two innovations: developing sparse Bayesian learning algorithms for efficient small dataset analysis and designing a simulator for
-
delivered, experienced, and analysed. In collaboration with our local commercial partner, Imersifi, and our academic partner, Dr Stephen Sharman (King’s College London), this PhD project will design and
-
. The project's final outcome will be the realization of reliable predictive models able to guide the design of future thermochemical energy conversion processes for hydrogen-based and sustainable fuels (carbon
-
relevant transmembrane targets. Understanding these interactions is crucial for the design of novel therapeutics addressing the urgent need for more efficacious, non-addictive analgesic molecules. Our