135 postdoc-in-postdoc-in-automation-and-control positions at The University of Arizona
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to ensure accuracy, compliance, and usability. Assists with configurations for systems, workflows, and automation using low-code/no-code tools like Monday.com and Microsoft Power Platform. Maintains
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the large portfolio of studies and new developmental efforts in Cancer Prevention and Control and Population Sciences research program. This position works closely with faculty research investigators
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problems wherever possible. Works harmoniously with co-workers. Knowledge, Skills, and Abilities: Knowledge of campus buildings and locations. Knowledge of automated or computerized system operation
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coworkers. Additional duties as assigned by supervisor. Knowledge, Skills and Abilities: Knowledge of automated or computerized system operations. Knowledge of record keeping practices. Knowledge of safety
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to instrumentation and techniques for ground and space-based wavefront control and high-contrast imaging. Candidates with a range of experience outside of astronomy are encouraged to apply. As a Postdoctoral Research
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with accuracy and efficiency, while balancing multiple details, stakeholders, competing priorities, quick turnaround expectations, and strict deadlines. • Proficiency with automated processing systems
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serves customers in a friendly courteous manner. Provides suggestions and input to supervisor. Works harmoniously with coworkers. Knowledge, Skills and Abilities: Knowledge of automated or computerized
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evaluation. Ability to manage staff. Expertise in application of technology platforms used within the College of Nursing and University, ability to write reports from data, vision for automating processes
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; develop, document and automate CB2 systems for clinical research. The incumbent will provide back up support for CB2 research systems that support the University's research mission. The University
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can modify and control light-matter interactions in novel regimes of cavity QED, collective atom-field interactions and nonequilibrium driven-dissipative systems. We are a research group working on