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About the Opportunity The Postdoctoral Research Associate advances research in mathematical modeling, optimization, and stochastic analysis for large-scale and distributed systems. The role focuses
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. Performance Optimization: Experience optimizing AI models for both accuracy and computational efficiency in resource-constrained environments. Security Awareness: Knowledge of security best practices for AI
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audience growth and engagement through strategic content production and optimization. Optimize digital newsletters and implementing strategies to grow newsletter audience, and drive readers to news platforms
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Security Analysis, Optimization, and Governance Conduct regular security audits using Workday delivered audit reports and custom reporting Analyze user access patterns and optimize security group assignments
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into the Vulnerability Mitigation Platform (VMP), ensuring seamless interoperability and optimal performance within the Whole-Hospital-Simulation (WHS) environments. (25%) Design and lead the implementation of Whole
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optimization of optical imaging hardware, develop data acquisition software and algorithms for data processing, as well as perform phantom and human clinical studies. This candidate is expected to co-supervise
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the ability to prioritize incidents based on business impact. Performance Optimization: Knowledge of techniques to optimize AI system and data pipeline performance, including resource allocation, scaling
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, with a focus on arboviral diseases (e.g., dengue or Oropouche viruses). Other projects include improving risk assessment, optimizing surveillance system design, and developing and evaluating mitigation
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and external audiences. 3) Lead the Burnes Center's social media presence to build and maintain a strong brand image. Develop content and campaigns. Monitor social media trends and analytics to optimize
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of medicinal chemistry. The candidate will be responsible for designing, synthesizing, and optimizing molecules targeting GPCRs (cannabinoid receptors; allosteric and orthosteric) and ion channels (a4b2 nAChR