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features. Build and test pipelines for pose detection, object tracking, optical-flow analysis, and gaze–scene alignment, in collaboration with computer vision researchers. Analyze large multimodal datasets
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, and hybrid models integrating computer-vision–derived features. Build and test pipelines for pose detection, object tracking, optical-flow analysis, and gaze–scene alignment, in collaboration with
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Summary Post-Doctoral Positions Atomic Physics/Quantum Information Indiana University, Bloomington Multiple post-doctoral positions are available in the Trapped Ion Quantum Information group at Indiana
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, creative, and well-organized candidate with experience in stem cell and cancer biology, molecular biology, next-generation sequencing techniques, bioinformatics, proteomic analysis, and animal handling
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record in either: next-generation sequencing (NGS) methods, biostatistics methodologies, genetic/molecular epidemiology, and/or bioinformatics or computational biology approaches/pipelines is required
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related dementias. Project Overview Leveraging newly developed brain organoid models, this project will: Utilize human iPSC lines from AD patients to develop multiple tiered brain organoid models
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multiple brain regions interact with each other, or networks. Furthermore, we are focused on identifying factors affecting the plasticity of these representational networks, and the degree to which they can
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Summary Post-Doctoral Positions Atomic Physics/Quantum Information Indiana University, Bloomington Multiple post-doctoral positions are available in the Trapped Ion Quantum Information group at Indiana
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are investigated as well. Example projects include tailored process improvement in primary care, telehealth for people with multiple chronic conditions, scalable quality improvement through data-driven
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by time of appointment. The proposed research will leverage multiple computational many-body techniques (including classical and quantum Monte Carlo, molecular dynamics, and ab initio methods) and