80 high-performance-computing-postdoc PhD positions at Newcastle University in United Kingdom
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College London, who is an expert in bone biology and will provide the high-resolution computed tomography (CT) scans of the bone. The overall goal of the project is to use computational approaches to map
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, migration, and accumulation of precipitated particles in CO2–water–rock systems using computational fluid dynamics (CFD) coupled with discrete element method (DEM). The research outcomes will provide critical
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spontaneously or following therapy, known as tumour lysis syndrome (TLS), is a life-threatening oncologic emergency. For high-risk patients, the levels of critical biomarkers (e.g., uric acid, potassium, and
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therefore investigate how these variations affect signal detectability and classification performance of AI models for fall detection. The research will combine experimental studies on different floor systems
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, thermal and fluid-structure interaction performance of dynamic flexible cables and develop novel engineering solutions to enhance their operational reliability. The PhD student will combine mathematical
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fabrication within engineering cleanrooms, in vitro testing and collaboration with consultant radiologists and surgeons from Gateshead Breast unit to assess device performance and clinical safety. Number
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of malignant haematologic cells (i.e., blood cancers) either spontaneously or following therapy, known as tumour lysis syndrome (TLS), is a life-threatening oncologic emergency. For high-risk patients, the
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adaptation options, evaluate trade-offs, analyse policy and governance frameworks, and compare UK and international best practices. Develop high value technical skills: strategic and analytical thinking
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. The primary objective of this project is to investigate the transport, migration, and accumulation of precipitated particles in CO2–water–rock systems using computational fluid dynamics (CFD) coupled with
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performance of AI models for fall detection. The research will combine experimental studies on different floor systems, finite element simulations of vibration propagation, and AI-based signal analysis