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Field
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/25 UKRI rate). Overview Soft robotics concerns the design and development of compliant structural systems integrated into various robotic systems. This project will explore innovative design and
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analysis and uncertainty quantification. The output would not only provide a tool for optioneering, but would also help prioritise new avenues for research and serve as a testbed for the design of tritium
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capabilities beyond basic flight. This project aims to advance the real-world applicability of FWMAVs by investigating new bioinspired design and flight approaches. Focuses may include: endurance and payload
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Research Centre (HTRC) located in Ansty Business Park. The team comprises ~100 personnel including Rolls-Royce Design and Manufacturing Engineers, University of Birmingham Academics, Research Fellows, and
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The National Institute for Health and Care Research (NIHR) and Brunel University London are providing a PhD studentship with full funding and a training budget to co-design and undertake feasibility
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complete and holistic training and a diverse research experience. At the micro-scale, the scientific challenge is to design novel mechanical metamaterials and understand their significant deformation
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assess the impact of hybrid electric propulsion and system architectures on the design and overall performance of future zero emission aircraft. The research will combine elements of electric power
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design the support structures, to manage different thermal expansions of optics, laser crystals, laser diodes, etc. The research will focus on developing new material combinations in powder-bed laser
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modelling with realistic perturbations dynamics become even more complex. Modern trajectory design aims to identify and exploit features in the natural dynamics to design trajectories meeting mission
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machine-learning techniques in ST studies. Our approach introduces two innovations: developing sparse Bayesian learning algorithms for efficient small dataset analysis and designing a simulator for