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; EPSRC Centre for Doctoral Training in Green Industrial Futures | Bath, England | United Kingdom | 3 months ago
for industry placements, site visits, international facility visits and biannual residentials. The Project Are you passionate about sustainable innovation and eager to tackle one of the construction industry’s
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the development of meta-optimization techniques that can automatically search for the best algorithm-hardware pair for a given problem. While we have a history of success in optimizing digital
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engaging in conversation. Are you highly communicative, a strong team player, and enthusiastic about welcoming young researchers from around the world? Do you bring a precise, well-structured, and forward
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their use as emitting layer and ensuring the feasibility of the project. Even if the synthesis of nanocrystals and the structure deposition are still not optimized, the devices produce light which constitutes
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, enabling early detection of damage. Renewable Energy: Rapid, optimized design of wind turbine blades and structures for greener energy. Microstructures: Accurate, efficient analysis of devices like MEMS
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slow and inefficient. Our group develops methods and tools to automate the co-design process. The core of this project is the development of meta-optimization techniques that can automatically search
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optimization of complex systems, intelligent data and information systems, as well as networks, distributed systems, and security. LIMOS stands out for its interdisciplinary approach, combining theoretical
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the molecular composition of cilia. (4) Performing structural and functional analyses using optimized cryo-FIB-SEM and cryo-ET techniques to reveal the molecular architecture of cilia in pancreatic cell types
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, aerodynamics, structures, and manufacturing to support integrated design and optimization activities within an international consortium. · Contributing to technical reporting, dissemination of results
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challenges. This PhD project aims to advance the efficient, controllable, and optimized use of renewable energy by integration of advanced TES technologies (latent heat and thermochemical storage) in