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1-27 of 27 search results
| Name | |||
|---|---|---|---|
Social computingThis priority area is underpinned by activities of the Social Data Science Lab and the Mobile and Social Computing Lab. |
PhD, MPhil | Full-time, Part-time | Area |
MedicineThe School of Medicine offers research degrees in the medical disciplines such as cancer, immunology, infection, immunity, neurosciences, mental health and population medicine. |
PhD, MPhil, MD | Full-time, Part-time | Programme |
Text and data miningIn this priority area, we are especially interested in applying text and data mining in the areas of healthcare, policing, life sciences and social sciences. |
PhD, MPhil | Full-time, Part-time | Area |
Human factors technologyHuman factors technology is dedicated to understanding and improving the way people use technology in information environment. It focuses on automated mining, structuring and integration of digital information (including text, voice, music and images), facilitating human-computer communication, and studying human behaviour by utilising sensor informatics. |
PhD, MPhil | Full-time, Part-time | Area |
Data privacy and cybersecurityExamples of our research in cybersecurity include the machine classification of malware in various forms (eg binary executables and web links), mathematical models for the quantification and forecasting of network security risk, security of industrial control systems (eg SCADA systems), and Cloud security. |
PhD, MPhil | Full-time, Part-time | Area |
Distributed and parallel systemsThis priority area is interested in compute-intensive and data-intensive multidisciplinary applications spanning traditional computational science and the emerging area of big data science. |
PhD, MPhil | Full-time, Part-time | Area |
Computer Science and InformaticsStudying for a PhD or MPhil at the Cardiff School of Computer Science and Informatics offers you the opportunity to become part of a strong, dynamic and internationally successful research school. |
PhD, MPhil | Full-time, Part-time | Programme |
Knowledge representation and reasoningThe field of knowledge representation and reasoning is concerned with systems for automated reasoning in the context of artificial intelligence. Our focus in particular is on: defeasible and inductive reasoning, argumentation, qualitative spatial reasoning, epistemic reasoning and knowledge acquisition. |
PhD, MPhil | Full-time, Part-time | Area |
Visual ComputingOur research in visual computing spans a wide range of topics in the fields of computer vision, computer graphics, geometric computing and both image and video processing. A significant theme in our work considers the input, description and editing of solids, surfaces and curves. These are represented analytically, as CAD models and as meshes. Other aspects of our work include the analysis, use and generation of static data such as images, surface meshes and 3D depth scans, as well as time-varying data such as video and 4D scans of moving objects. Our expertise in this area has been applied to problems from a range of disciplines including engineering, earth sciences, psychology, biology, medicine and even quantum control. |
PhD, MPhil | Full-time, Part-time | Area |
Quantum technologies and engineeringQuantum technologies and engineering (QuTeE) focuses on modelling and control techniques to engineer quantum devices and processes. We work on techniques to design, control and optimise the behaviour of quantum processes based on methods to model and simulate quantum systems, characterise their behaviour by parameter and model learning, and visualise and analyse measurement signals. |
PhD, MPhil | Full-time, Part-time | Area |
Studying human neuropsychiatric disease in DLG2 deficient human neuronsThis PhD project in Medicine tries to understand DLG2’s role during neural development and in mature neurons using variety of techniques. |
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Integration of genetic and functional data to identify drug targets and enhance risk predictionIntegrating brain expression and protein-protein interaction data with genomic data identified a network of immune-related genes implicated in Alzheimer’s disease (AD) susceptibility. |
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Characterising DNA damage repair in Huntington’s diseaseThis is an exciting opportunity to help define the molecular mechanism of Huntington’s disease (HD). |
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Detecting dysfunction in the single-cell gene networks underlying Parkinson’s diseaseParkinson’s disease (PD) is the second most common neurodegenerative disorder and results from the selective loss of dopaminergic neurons within the Substantia nigra pars compacta. |
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Microglial NFAT signalling and Alzheimer’s disease genetic risk networksIn this project, you will develop skills in molecular biological, cell culture, genome biology and bioinformatics. |
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The molecular basis of cognitive flexibilityThis project examines transcriptomes in key brain regions at critical periods to determine the molecular bases of flexible behaviour. |
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Investigating peroxisome dysregulation in Alzheimer’s diseaseIn this project you will first determine how peroxisomes respond to the specific pathogenic proteins associated with AD in vivo. |
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Targeting LAG3+ T cells for Cancer ImmunotherapyThis study will look at the control of adaptive immunity in health and inflammation by human blood and mucosal gamma/delta T cells. |
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Machine Learning for Prediction in Alzheimer's Disease: Identifying Novel Biologically Valid Diagnostic Categories to Inform Precision MedicineThe project will involve investigating the ability of machine learning. |
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Alzheimer’s disease: Understanding the interaction of microglia risk genesThe aim of this project is to understand the interdependence of specific risk alleles and highlight the possibility of adjunctive therapies targeting different ‘arms’ of the immune cells to treat the disease. |
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Investigating the childhood neurodevelopmental origins of adult mental illnessThis PhD utilises new data generated by a Wellcome Trust Collaborative Award between Cardiff and Bristol Universities to test hypotheses on why child NDDs show links with later adult mental illness. |
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Flexible vectors for immunotherapy against cancer and pathogensThis project aims to determine pathways that can drive the growth of particular types of NK and T cells that are optimised to provide better protection from disease. We will use cytomegalovirus and leukaemic cells as systems of analysis. |
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Enhancing immune stimulation for novel anti-cancer viral vaccine vectorsWe will combine cutting-edge proteomics with molecular virology and immunology to determine how HCMV induces such strong responses, enabling us to generate optimised vaccine vectors. |
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Role of a mouse ortholog of CR1 (crry) in the 3xTG model of Alzheimer’s Disease (AD)In order to explore further roles of Crry, we have generated and established a 3xTG/Crry-/- colony, but have not yet had resources to explore further the impact of Crry deficiency in this model. |
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Optimizing adult mental health outcomes in children with neurodevelopmental problems: interplay of social and genetic factorsThis PhD project provides a unique opportunity to develop advanced methodological and analytic skills in the field of developmental psychopathology. |
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School experiences in children at high genetic risk of mental health problemsThis project will provide important insights into why children with a genomic disorder struggle in school. |
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Molecular mechanisms of CRISPR Cas9 nickase-induced CAG/CTG repeat contraction: Implications for gene editing in expanded repeat disordersThe aim of this project is to understand how contractions occur at the molecular level such that we can make a potential gene editing-based treatment safer and more efficient. |
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