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coupled neuronal and vascular dynamics of the human retina. Scientific Objective The goal of this PhD project is to develop new optical methods and advanced image-processing approaches to simultaneously
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vivo experiments to investigate retinal neurovascular dynamics using the AO-RSO system; Developing or adapting high-speed image acquisition and processing methods for the simultaneous extraction
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. Apply:https://informatics.ed.ac.uk/study-with-us/our-degrees/postgraduate-research-and-cdts/phd-3d-computer-vision-medical-imaging
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of Life Sciences and Medicine may be found at https://www.kcl.ac.uk/lsm/index.aspx Within FoLSM, the School of Biomedical Engineering & Imaging Sciences is a cutting-edge research and teaching School
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collaboration, we are building a high-throughput single-cell analysis platform that combines microfluidics, advanced imaging and AI-based analysis to study gut microbial consortia. You will drive the development
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simulation of scenarios with different materials and geometries. - Support the development and implementation of signal and image processing algorithms, including fast inversion techniques, FFT, and nonlinear
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image analysis, including AI-enabled approaches. The successful candidate will participate in human-subjects-based translational research, including analysis of ophthalmic imaging (e.g., OCT), clinical
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platform, we invite applications for three PhD-level Research Specialists: Microscopy and Spatial Transcriptomics Specialist (this position); Image Analysis Specialist; Computational Neuroscience and Data
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by nanobubble ultrasound imaging. The research on these three topics will be carried out by 2 PhD students and a postdoc at Eindhoven University of Technology and the University of Twente. The whole
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and setup: Within the project, we follow a multidisciplinary collaborative approach for which we are have recruited 3 PhD students focusing on material science, advanced in vivo imaging and computation