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brands and sports federations, including Adidas, PING, Head, FIFA, Wattbike, England & Wales Cricket Board, New Balance, Nike, UK Sport, Reebok, Speedo, and others, in the design, simulation, testing, and
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develop innovative solutions and technologies. This studentship, supported by a BAE Systems - EPSRC CASE Award, focuses on the design and development of a novel electric actuator. The successful candidate
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for the design and development of a novel electric actuator. The successful candidate will join a diverse, world class research group and will work closely with BAE Systems. The researcher will also have the
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. The vision with the lab is to establish a research space which can truly bring together skills and knowledge from diverse disciplines in art, design, science and robotics. Another key vision for the lab is to
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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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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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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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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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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
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. The primary focus of track design is often on isolating ground vibration rather than addressing rolling noise, interior noise within railway vehicles or wheel/rail wear issues. In practice, there is often a