Sort by
Refine Your Search
-
Grant and offers excellent training in experimental techniques, data analysis, and translational research. The successful candidate will gain in-depth expertise in both cardiovascular and neurological
-
digital medicine use reminder technologies (RespiPlus) delivered in the community pharmacy setting for people with asthma or COPD. The PhD project will focus on components relating to a media and
-
therapeutic targets. The scholarship provides opportunities to apply statistical genetics approaches to dementia research within a collaborative and supportive research environment. Student type Future Students
-
children. Mechanistic modelling of disease transmission involves the use of computer code to represent the epidemic dynamics of infectious disease spread within the community. This allows modellers
-
emission from the proposed process and the conventional methods will be conducted. This scholarship is funded by the Resources Technology and Critical Minerals Trailblazer (RTCM Trailblazer) . The RTCM
-
between the successful candidate and the supervisor team. The candidate will gain advanced expertise in qualitative research methods, such as in-depth interviews, policy analysis, and/or ethnographic
-
evidence underlying C2 Agility is based mainly on descriptive studies that use cross-sectional or low-resolution (i.e., broad timescale) snapshots of key inputs, processes, and outputs obtained within static
-
relevance across various surgical procedures and patient groups. Objectives 1. Algorithm Development: (a) Design and implement a deep learning algorithm for CT scan analysis. (b) Train, validate, and test the
-
for policy, practice and advocacy. The mixed-methods project will use a combination of participatory approaches including but not limited to GIS mapping, stakeholder analysis, network and systems mapping
-
treatment. Objectives Conduct studies to measure the impact of multisensory stimulation on sensorimotor learning, working memory, and selective attention. Utilise EEG to investigate the neural mechanisms