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-wavelength excitation) in to the current waveguide chip settings. further develope microfluidics for controlled fluidic exchange allowing for kinetic measurements and to enhance data-driven image analysis
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excitation) in to the current waveguide chip settings. further develope microfluidics for controlled fluidic exchange allowing for kinetic measurements and to enhance data-driven image analysis to provide
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Wacklin-Knecht (ESS). The Edler research group in the Centre for Analysis and Synthesis (CAS) aims to understand self-organisation in a range of materials, principally using scattering techniques. Subject
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the planning, implementation and development of behavioural studies. This includes field-based research in commercial and experimental farming environments, analysis of complex behavioural data, and leading
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measurements, from operating batteries. Such data are known to contain valuable information about complex electro-chemo-mechanical processes—such as particle fracture, interfacial delamination, and gas evolution
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Arnold (ESS), and Dr Hanna Wacklin-Knecht (ESS). The Edler research group in the Centre for Analysis and Synthesis (CAS) aims to understand self-organisation in a range of materials, principally using
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Biology, Department of Life Sciences, to develop intelligent systems that integrate metabolic modeling, omics analysis, and automated literature mining. About us The Department of Life Sciences conducts
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on bioinformatics analysis of spatial gene expression data as well as other modalities (i.e. microbiome; metabolites, proteins) generated using the Spatial Transcriptomics (ST) method, Spatial metaTranscriptomics
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accurate, efficient, and robust AI models capable of operating effectively within complex and dynamic radiofrequency spectral landscapes, accounting for real-world interference, noise, and channel
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algorithmic aspects related to the development of highly accurate, efficient, and robust AI models capable of operating effectively within complex and dynamic radiofrequency spectral landscapes, accounting