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, please contact: Professor Pietro Valdastr i, PhD, Chair in Robotics and Autonomous Systems Tel: +44 (0)113 343 3706 Email: P.Valdastri@leeds.ac.uk Please note that this post may be suitable for sponsorship
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novel ways to tackle such challenges and in setting up experiments with controlled robotic arm and various sensors for understanding the underlying principles on phantom models. You will be a leading
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to composites) to improve defect detection, support the automation of the active thermography inspection (integration of robotic arm with active thermography approach selected), and support demonstrations
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of thermographic image processing tools and techniques (all applicable to composites) to improve defect detection, support the automation of the active thermography inspection (integration of robotic
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and innovative researcher with a strong foundation in wearable systems and are currently in the final stages of completing a PhD in Robotics or Control Systems Engineering. Your academic journey is
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to composites) to improve defect detection, support the automation of the active thermography inspection (integration of robotic arm with active thermography approach selected), and support demonstrations
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and innovation. Experience working with robotic systems, automation, or advanced manufacturing technologies. A collaborative mindset with a commitment to interdisciplinary research. A PhD (or working
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equivalent to PhD level plus the requisite experience. A2 A comprehensive and up-to-date knowledge of current issues and future directions in the use of robotics in chemistry. A3 Knowledge of programming using
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automation of organic and inorganic self-assembling systems . The successful candidate will have a PhD in either inorganic or materials chemistry with some experience of Programming, computer science and
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synthesis by self-assembly and mechanistic analysis. The successful candidate will have a PhD in either inorganic or materials chemistry with some experience of analytics for mechanistic analysis