Explore our current postgraduate research degree and PhD opportunities.
Work with us on this exciting cutting-edge research in future directions of User-Centred Interactive Information Access (FUCIA), which aims to design and develop future information access technologies for different user information needs in different context.
Work with us on this exciting and cutting-edge research at The National Institute for Health Research (NIHR) Southampton Biomedical Research Centre (BRC).
'Smart' phased-array lasers based on computer-controlled, coherently combined optical fibre amplifiers promise to revolutionise materials processing and other important laser applications.
As advances are made in Artificial Intelligence (AI), the technology is being applied to health-related problems. For example, how we evaluate the trustworthiness of these systems in the health context.
This PhD aims at developing memristor artificial synapses for neuromorphic chips, and building simulation modelling of their synaptic plasticity. Memristor nanodevices are an emerging nanoelectronic technology capable of mimicking the communication of neurons, through a process called synaptic plasticity.
Impulsive control systems (ICS) have received attention in the last decade in a wide range of applications, especially biomedical applications such as cancer treatment. This project is expected to benefit both oncology and control theory fields. You will have a unique opportunity to contribute in developing a rethinking of how the treatment is administrated in oncological clinics.
This project aims to develop and validate a new method to evaluate and communicate about the quality of fats in foods and in food products.
This project will dramatically impact the fields of drug resistant microbial pathogens, chemo-resistant tumours, and synthetic food engineering.
This project will help parents with babies to introduce allergens during an early weaning process, in order to reduce allergic reactions. It will use health psychology and behavioural science to co-produce an exciting solution with patients in an applied project in the real world.
The Kaganovich lab studies the basic mechanisms of stress adaptation in cells, from yeast to mammals. We are especially interested in the role that metabolic regulation plays in stress response and adaptability to new conditions.