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Field
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control engineering and/or numerical optimisation Interest in embedded systems or real-time autonomous applications Programming experience in a compiled language (e.g. C, C++, Rust) Application Procedure
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to these questions will provide a new and much needed understanding of the controls of fluid-flow processes in the Cornubian batholith and their controls on the fluid mobilization of geothermal heat and metals
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have deep knowledge on load modelling, as well as power system stability analysis and operation. Good understanding of control theory, especially system identification is expected. Good experimental
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3.5-year D.Phil. studentship Project: Efficient engineering and control of predictable and reliable biotechnologies. Supervisors: Prof Antonis Papachristodoulou and Prof Harrison Steel This project
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handle to control biomolecular chemistry as their behaviour (e.g. binding interactions) can be programmed with electrochemical signals. Establishing electrochemical control over the interactions between
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enteric coatings that dissolve at specific pH ranges, but these lack precision and control over release timing/location. Ingestible “smart capsules”, such as IntelliCap, have emerged as an attractive
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system stability analysis and operation. Good understanding of control theory, especially system identification is expected. Good experimental or simulation skills are expected. Industrial experience is
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Project Supervisor - Dr Andrew Beekman A feature of tumours is immortality. This is achieved by overriding our natural ageing process. Our DNA has repeating units on the end that protect our DNA
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, medicines, and even fuels. Their properties, like how stable or smooth they are, determine how well these products work. Studying emulsions also helps scientists understand fundamental processes in soft
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integration, and real-time optimisation, the project will ultimately help develop an adaptive system that helps pilots and controllers make smarter decisions mid-flight. The research will advance through three