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medicine, with a particular focus on spinal cord and peripheral nerve injuries. The projects involve work on various aspects of nerve regeneration and tissue engineering using both in vitro and in vivo model
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Fluorescence microscopy Generation of antimicrobial formulations In vivo testing in mouse models Previous work experience with the pathogen Chlamydia is beneficial but not required. Given the collaborative
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radar altimetry data tracking surface water variations. AI models will be used to analyze complex surface water-groundwater feedback loops, simulate future scarcity under climate change, land use, and
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vehicles. The Postdoctoral researcher is also expected to develop mechatronic concepts for rail vehicles and implement these ideas as simulation models to validate the concepts. The projects you will work
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for applications in virtual reality, gaming, digital assistants, and social robotics. We build on recent breakthroughs in spontaneous speech synthesis and gesture generation based on deep generative models to train
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aims to digitalize the sense of smell, laying the foundation for understanding how olfaction works in humans and for building AI models that simulate olfactory experiences. The research will focus
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genome editing approaches, as well as co-culture systems modeling neuron–glioma interactions, with the main focus on investigating the impact of neuronal activity on 3D genome organization and cellular
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of burnup simulated doped UO2 fuel (ADOPTTM SIMFUEL). The project is supported by the Swedish Radiation Safety Authority (https://www.stralsakerhetsmyndigheten.se/ ) and in collaboration with Westinghouse and
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employment decision is made. Doctoral degree in remote sensing, geoinformatics, computer science, or a closely related field. You have experience developing and applying deep learning models for Earth
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will use single-cell sequencing methods, bioinformatics, and genome editing approaches, as well as co-culture systems modeling neuron–glioma interactions, with the main focus on investigating the impact