378 web-programmer-developer-"https:"-"https:"-"https:"-"https:"-"https:"-"https:" positions at University of Sheffield in United Kingdom
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, autonomous learning agents are likely to take an active role in human society, engaging in daily interaction and collaboration with humans. Developing learning algorithms that enable these agents to produce
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be manufactured using the winding machine at the AMRC’s Factory 2050 and the additive manufacturing machines at the University of Sheffield. The project would lead to the development of skills in
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, disease models, drug discovery and bioinformatics. • Impact: This is not just basic research; it is a translational pipeline. Your work will directly contribute to the development of novel therapeutic
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of all polluting vehicles by 2035. With over 14 million electric cars on the road globally in 2020, the majority of the lubricants utilised for these vehicle transmissions were developed for non-electric
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Model Based Design and Flight Testing of a Vertical Take-Off Vertical Landing Rocket (C3.5-MAC-John)
Landscape Award at the University of Sheffield. This project will develop a Vertical Take-Off Vertical-Landing (VTVL) rocket, also known as a “propulsive lander” or “hopper”. The technologies developed and
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interview Further Information Next steps in the recruitment process It is anticipated that the selection process will take place in January 2026. This will consist of an interview and presentation. We plan
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to participate in the world-leading research undertaken by the EPSRC Doctoral Landscape Award at the University of Sheffield. This project aims to develop and demonstrate novel bio-inspired micro-electromechanical
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challenge: the analysis methods must be fast enough to provide near-real-time feedback. Developing a rapid, accurate and resource-efficient method for analysing shell structures is of significant interest
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to define information as a measurable quantity. This project aims to develop new information theoretic methodologies for identifying causal behaviours, embedded in data, in order to help diagnose the cause
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. This project will develop a revolutionary new type of microscope—a "quantum sensing microscope"—to observe the secret life of bacteria as they interact with the body’s defence system. This will give us a way to