18 parallel-and-distributed-computing-"Multiple" PhD scholarships at University of Birmingham in United Kingdom
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There is growing UK and international interest in networked sensing and autonomous collaborative platforms, where multiple airborne sensors co-operate to collect and exploit data. In contrast
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have partnered with AWE to fund a 4-year Computational Project to use state-of-the-art Computational Chemistry techniques to understand structure-property relationships in oxide scintillators. We will
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measurements and integrated into multiple national central facilities, including the Central Laser Facility (CLF), the ISIS Neutron and Muon Source (ISIS), and the Diamond Light Source (Diamond). All three
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This project will develop advanced computational and experimental tools to support the safe, efficient, and scalable manufacture of materials critical to UK and European security, with a particular
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populations to minimise contact between people and limit opportunities for transmission. They encompass multiple measures and behaviours including workplace closures, working from home, closure of non-essential
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environment and will receive training across multiple disciplines including: • Microbiology and microbiome science • Bioreactor engineering and microbial culture systems • Biomaterials and formulation science
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preparedness, and support more equitable and effective future responses. The project will examine how data from multiple sources, including health services, emergency responders, public health agencies and
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resilient. The PhD student will undertake a full research programme: interviewing participants, leading focus groups, designing studies, analysing data, developing models, designing technological, educational
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operators links classical observables (functions on phase space) with quantum operators. Microlocal analysis also provides essential tools to rigorously define, compute, and analyse resonances, which describe
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that will consider the electromagnetic aspects, through computer modelling and simulation, and then identify material systems that enable the design and manufacture of antennas for test and characterisation