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hub for advanced manufacturing, i.e., Manufacturing Technology Centre (MTC). and with academics from the globally renowned Power Electronics, Machines and Control (PEMC) Research Institute
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viscous and elastic properties. These fluids are fundamental for a myriad of industrial processes (such as mixing of chemicals or cooling of microprocessors), however they are still not well understood due
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(3.5 years). Project Description Background and context: Optogenetics is a powerful and controlled neuromodulation technique, which mostly used to study the brain by using neural implant containing light
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effectively presents significant engineering challenges, requiring advanced control strategies that balance competing objectives while maintaining real-time operation and robustness. The aim of this PhD project
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Supervisors:Dr Dezong Zhao & Prof Lei Zhang Year 1 MSc Course: MSc Communication and Signal Processing Year 2 – 4 PhD Location: Glasgow University Research Abstract: This research aims to enable robots to tackle
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hub for advanced manufacturing, i.e., Manufacturing Technology Centre (MTC). and with academics from the globally renowned Power Electronics, Machines and Control (PEMC) Research Institute
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effectively presents significant engineering challenges, requiring advanced control strategies that balance competing objectives while maintaining real-time operation and robustness. The aim of this PhD project
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processes. Carbonate biomineralisation is a key process in global carbon cycling, but there are major gaps in our understanding of how biominerals form. We lack a quantitative understanding that can predict
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. The ability to control the pore environment of the MOF is one of their remarkable advantages and enables control over the structure and properties required for specific applications. Despite these advantages
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Flood risk is controlled by both the hydrology and the physical shape and behaviour of a river and its floodplain (e.g., river type and behaviour; impacts of artificial modifications). Although