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persists, even for the most powerful sensors operating in this way. A drastic departure from this sensing architecture is “multistatic” radar – enacted by a coherent network of spatially distributed sensors
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successes and proposes intelligent sensing and control solutions for automated robotic systems capable to be tele-operated using smart human-machine interfaces. This is an exciting PhD project that has a
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on electromagnetic motors, pumps, or compressed air systems. However, motors are often bulky, heavy, and rigid, while fluid systems are typically tethered and inefficient. There is an urgent need for untethered soft
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activity. These losses can occur through sweating, red blood cell haemolysis from repetitive foot strike and/or blood vessel compression during exercise, inflammatory/iron regulation hormone (hepcidin
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of quantum sensors for acceleration sensing is a key priority due to its potential to revolutionise inertial navigation, environmental monitoring and geological surveying. Presently, the acceleration sensing
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or 3-dimensional spaces, enabling insights about the underlying structure and distribution of the data. However, due to the heavy data compression into a space with only 2 or 3 degrees of freedom
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filled. This fully funded PhD explores AI-native and sensing-aware wireless systems where communications and sensing are co-designed end-to-end. You will unify modern machine learning, statistical signal
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@contacts.bham.ac.uk . Supervisors: Dr Shashwat Sharma (s.sharma.11@bham.ac.uk ) References: Feel free to look through my past publications to get a sense of the work we will do together: https://scholar.google.com
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simulations. The outcomes will support the development of strategies to mitigate these deterioration processes and improve the resilience of geotechnical infrastructure. Feel free to reach out to the primary
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novel computational imaging and sensing techniques for compact imaging systems. These systems are applicable to all sectors which require compact imaging specifications, but will have a primary focus on