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capsules inside the gastrointestinal tract. The candidate will design and implement a control framework that enables clinician-guided navigation, with validation in anatomical phantoms and ex vivo tissue
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or synchronization, and how to control these behaviors? How to realize targeted sequential and adaptive computations? Can we develop neuronal circuits for maze-solving and sequential adaptation? To answer
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that drive endothelial organ-specification and phenotype, and to use this knowledge to engineer organ-specific ECs. The obtained insights will be used to explore experimental approaches to control
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of AM in advancing the circular economy. You will be embedded in the Operations, Planning, Accounting and Control (OPAC) group within the Department of Industrial Engineering and Innovation Sciences (IE
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and Explainable AI is a plus; Analytical and creative mindset, with the ability to work independently and in teams; Excellent command of English; willingness to work in an international, multi-sector
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academic research to non-academic audiences; excellent command of English. Please note that if you already hold a doctorate/PhD or are working towards obtaining a similar degree elsewhere, you will not be
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guaranteed by using a advanced foaming approach, that will also allow control over the membrane porosity and pore size. There will be a strong focus on connecting material properties to membrane performance
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privacy and are keen to create You have a good command of spoken and written English. You are motivated to publish at top-tier academic venues. Additional Information Benefits We will give you a temporary
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and Explainable AI is a plus; Analytical and creative mindset, with the ability to work independently and in teams; Excellent command of English; willingness to work in an international, multi-sector
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a function of variables such as composition, temperature, pressure and oxygen fugacity. The candidate will focus on understanding and quantifying controls on the mobilisation, concentration and