339 parallel-processing-bioinformatics positions at University of Sheffield in United Kingdom
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incorporating various friction models. You will conduct experiments with a physical rig to identify essential system parameters, friction characteristics, and actuator/sensor models. This process will not only
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more understanding of the fundamental behaviour of these materials which is where computer simulation can provide many of the answers. The project will involve studying the defect chemistry of niobate
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Developing a clinical pathway to support nurse led whole genome sequencing for neurological diseases
throughout the NHS; improving the efficiency of the process, freeing consultant neurologist time and improving equity of access. In addition to classic monogenic conditions such as Huntington’s disease (HD
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science, computer vision, medical/image analysis is essential. Experience of research (or interest in) in one or more of the following: deep learning; big data management; computational pathology; medical imaging
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various applications. Potential applications include environmental monitoring, process manufacturing, machining, scientific characterisation, and renewable energy systems. The outcomes of this research will
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healing membranes. Wound healing is a complex process that can be severely compromised by bacterial infections and biofilm formation, which contribute to antimicrobial resistance (AMR) and chronic wound
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questions. We are especially interested in how historical processes of selection have led to the range of crop phenotypes we see today, and how these have constrained the potential for future crop improvement
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student life in Sheffield, visit https://www.sheffield.ac.uk/sheffield-guide. Application Process Informal enquiries are encouraged and should be addressed to Dr Anton Selivanov below. You can apply for
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year round Details Proteins bind and recognise each other using large surface areas. This recognition process is vital for a variety of biological applications. Sensing and recognizing specific proteins
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and the population dynamic processes associated with successful invasions. However, despite the fact that individual behaviours and social interactions are likely to play an important role in dispersal