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tasks will be to: Develop computer vision, image processing and deep learning methods for damage detection of wind turbine blades considering varying conditions such as sunlight, temperature, wind, etc
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described through five overall research areas: Diagnostic Imaging, Digital Health, Personalised Therapy, Precision Diagnostics, and Sensory and Neural Technology. Our technologies and solutions are developed
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combines omics technologies with bioinformatics, and functional validation of candidates by biochemical, cell biology, and imaging methods (see for instance, Smith, Ferguson et al., EMBO J., 2021; Watson
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powerful tool in probing the microscopic picture of hydrogen bonding substances, and the most efficient treatment of spectroscopic data is carried out with the application of fundamental principles regarding
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techniques. Development of quantitative image analysis to extract dynamic information encoded in single and series of atomic-resolved images of single nanoparticles. Investigation of dynamic processes
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overall research areas: Diagnostic Imaging, Digital Health, Personalised Therapy, Precision Diagnostics, and Sensory and Neural Technology. Our technologies and solutions are developed with the aim
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: Diagnostic Imaging, Digital Health, Personalised Therapy, Precision Diagnostics, and Sensory and Neural Technology. Our technologies and solutions are developed with the aim of benefiting people and creating
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an internationally recognised multidisciplinary team to develop new technologies and advanced analytics such as deep learning methods for the analysis of images and videos for species identification