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Field
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wearable devices. The overall objective is to define the optimal range of tissue cortisol. About the project/work tasks: The project includes: A case–control study collecting omics data reflecting
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are available here: https://www.gsbs.uni-konstanz.de/application/how-to-apply/ . Possibility of finding part-time employment Doctoral candidates can develop their teaching skills by working as tutors
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Fund. Subject description The subject includes signal processing with emphasis on development and optimization of algorithms for processing single and multi-dimensional signals that are closely related
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diverse and impactful set of use cases: Logistics, shipping and business transactions; Ship design and construction; Voyage planning and optimization; Condition monitoring and maintenance; Crew training
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to their limits, and explore how they can be used to optimize the manufacturability, efficiency (>99.9%) and LIDT > 1J/cm2 for sub-ps pulses, of the final gratings. In parallel, the fellows will be provided with
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established, optimized, and maintained over time. Key tasks Design, construct, and maintain synthetic microbial consortia composed of cyanobacteria and actinomycetes for sustainable bioproduction Investigate
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alerts, facilitating optimized maintenance decisions and reducing unplanned downtimes. The framework will be validated through close collaboration with industry partners, incorporating actual operational
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developed to allow operators to visualize real-time risk indicators, maintenance sched-ules, and preventive repair alerts, facilitating optimized maintenance decisions and reducing unplanned downtimes
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prototype maritime AI solutions, the center will address a diverse and impactful set of use cases: Logistics, shipping and business transactions; Ship design and construction; Voyage planning and optimization
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, energy and weather optimal voyage planning including wind assisted propulsion, enhanced situational awareness for safe navigation, and predictive management of green energy storage systems. The PhD