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Dalhousie University | Halifax Mid Harbour Nova Scotia Provincial Government, Nova Scotia | Canada | about 2 hours ago
abilities Proven ability to work both independently and collaboratively Demonstrated professionalism and strong work ethic Expertise in spatial disease mapping models is required Exceptional computing skills
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, mechanistic mathematical and computational models of cytomegalovirus (CMV) infection. The models will be calibrated to and validated against experimental and clinical data to study the patterns of infection and
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, engineers, computer scientists, nuclear medicine physicians, …) towards the overall aim of enabling translational and physician-in-the-loop AI for medical imaging. Our research team is multicultural and
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Project Overview: Foundation models have revolutionized natural language processing. These are models trained on broad datasets with powerful generalization tasks such as the GPT series. There have
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Dalhousie University | Halifax Mid Harbour Nova Scotia Provincial Government, Nova Scotia | Canada | about 2 hours ago
health is essential to inform population and healthcare interventions that enhance quality of life and alleviate healthcare demands. Dr. Scott Kehler’s research program focuses on exploring frailty
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on advancing vaccine candidates through preclinical development. The project is part of a collaborative research initiative funded through the MITACS program and offers the fellow the chance to work closely with
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healing. The Granville research program spans basic molecular biology and biochemistry through to target validation, proof-of-concept in animal and human models, and collaborations with clinicians and
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clinically-approved drugs for indications related to wound healing. The Granville research program spans basic molecular biology and biochemistry through to target validation, proof-of-concept in animal and
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vitro models, and high-throughput spatial omics platforms. Publish high-impact research and drive innovations with clear translational potential. Contribute to a global CIFAR program exploring
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Cell Bioengineering Laboratory The Zandstra Lab, develops integrated computational and experimental approaches to enable advanced therapies from renewable sources. With expertise in quantitative