21 image-processing-postdoc Postdoctoral positions at University of Washington in United States
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the data repository and computer servers. Runs existing PET/MR brain image processing pipelines on the computer servers, produces the results, and communicates with the group members. Writes computer codes
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, neuroscience, brain imaging), the NGI (exceptional expertise on genetics and multi-omics data generation & processing), and the highly collaborative atmosphere at WashU. The candidate is expected to lead
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a novel multi-omics approach that integrates high-throughput imaging and machine learning methods with CRISPR/Cas9 screens and saturation mutagenesis to answer central questions about the
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Position Summary This position involves the development, implementation and refinement of novel image reconstruction methods for photoacoustic computed tomography (PACT). This will involve
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of the innate immune system in these injury and recovery processes. Research Focus The Sheets Lab investigates how traumatic injury affects sensory hair cells and innervating nerves, with a focus on identifying
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anticipated to focus on advancing imaging techniques within the lab and will provide a supportive role to other projects within the group. Individuals with engineering (biomedical and mechanical/materials
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the outcome of the infection. Individuals who join this lab as a postdoctoral appointee will gain advanced research skills in virology, cell biology, imaging tools and molecular virology, among others. Members
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identify new genes involved in AD etiology. Job Description Primary Duties & Responsibilities: Information on being a postdoc at Washington University in St. Louis can be found at https://postdoc.wustl.edu
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disease on memory processes. Research projects will involve functional brain imaging techniques (fMRI), behavioral measurement, and computational modeling approaches. Opportunities for collaboration within
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, the representation and processing of social information in patients with psychiatric conditions remain largely unclear. We use a suite of cutting-edge techniques, including in vivo multi-photon imaging, fiber