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electromagnetic design. We will explore advanced topologies for mmwave metasurfaces, design novel reconfiguration mechanisms, and develop intelligent algorithms to optimize scattering characteristics in real-time
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processing, data analysis, data-driven modelling, optimisation and computation algorithms, machine learning models and neural network structures, as well as strong skills and experiences in computational
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on specific use cases, including multi-modality perception systems, to enable testing and validation of robotic manipulation strategies. Implement intelligent algorithms for the robotic execution
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PhotoRedesign project relevant to this position are to: (1) genetically engineer a range of photosynthetic microorganisms to produce combinations of non-native proteins and pigments; (2) characterise the pigment
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decision with multiple data sources. One example is to develop the semi-supervised methods and dynamic system interfacing algorithms to produce an automated and real-time information exchange across
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this, they can no longer function properly. The aim of this PhD project is to apply cutting-edge microscopy, genetics and biochemistry to understand the fundamental mechanisms of how cells process phagosomes and
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Investigation of the biological behaviour and genetic regulation of rare cancers, to develop new therapies.
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research programme is to use genetic, molecular and cellular, and imaging/image analysis approaches to understand the development and function of the vertebrate inner ear, the organ of hearing and balance
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this using in vivo two-photon calcium imaging, confocal microscopy, stochastic genetic labelling of single neurons, and detailed analysis of neuronal morphology. You will design, develop and perform
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Christopher Webster, Prof Mimoun Azzouz Application Deadline: 17 August 2025 Details A repeat expansion in the first intron of C9orf72 is the most common genetic cause of amyotrophic lateral sclerosis (ALS