51 evolution-"https:"-"https:"-"https:"-"https:"-"https:"-"Birmingham-Newman-University" positions at Cranfield University
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AI techniques for damage analysis in advanced composite materials due to high velocity impacts - PhD
life. It also provides valuable skills in AI, materials testing, and data analysis. In addition to its technical innovation, this project offers a range of unique personal and professional development
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how individuals make movement and life-history decisions in dynamic agricultural landscapes. A baseline model and dynamic energy budget framework already exist, but require development to incorporate
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, founded upon the diversity of activities and knowledge. A tailored programme of seminars and events, alongside our Doctoral Researchers Core Development programme (transferable skills training), provide
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. Expected outcomes include: development of novel algorithms that significantly improve predictive accuracy for equipment failure; creation of scalable monitoring systems that reduce operational costs
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delivery. You will have experience in training and supporting non-technical users, and mentoring others in low-code development. Your excellent communication, problem-solving and organisational skills will
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have experience managing and developing staff, supporting non-technical users, and mentoring others in low-code development. Your excellent communication, problem-solving and organisational skills will
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exposure risks to consumers. The research will involve method development using LC-MS/MS for toxin detection, sample collection, data analysis, and comparison of results against current safety thresholds
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development of digital twins to revolutionize tea agriculture practices. You will join our new BBSRC Business and Academia Prosperity Partnership between Cranfield University and LIPTON Teas and Infusions
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the development of specialized hardware architectures capable of efficient, real-time processing. Embedded AI hardware architectures, including neuromorphic processors and low-power AI accelerators
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characterization. Chemical and biological analysis of waste streams represents a critical component of sustainable sanitation technology development, particularly as communities worldwide seek safe and effective