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experimental researchers working with cartilage microtissues and engineered biomaterials, e.g. for tuning and validating the computational models, and for informing new in vitro experiments. As a PhD candidate
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experience with quantitative data collection (survey research, lab and natural experimental research are parts of this project); openness and willingness to collaborate with people from other scientific
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of toxins using portable mass spectrometry, which will be demonstrated in pilot studies together with the project stakeholders. You will be expected to develop research questions, experimental approaches and
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with one or more of the following is a plus: knowledge graphs or symbolic reasoning systems; dialogue systems or conversational AI; behavioural modelling; experimental design and user studies; AI
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innovative Non-Destructive Testing (NDT) with advanced structural modeling. As a PhD candidate, you will bridge the gap between experimental NDT and structural safety analysis. Your work will involve: NDT
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measurements. A key element of the project is the development of an interactive supply chain simulation game that serves as an experimental research platform (https://msgames.in/ ). In addition, you will design
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contribute to multiple stages of the design cycle, from concept development and modeling to circuit implementation and experimental validation. The work provides a unique opportunity to see advanced circuit
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be the driving force behind the design, construction, and experimental validation of a next-generation magnetocaloric heat pump prototype, a technology poised to revolutionize the market and contribute
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them into executable experimental workflows for technicians; guide the application of advanced technologies (such as spectral flow cytometry) ensuring robust panel design and data interpretation; apply
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—such as Criminology or Economics—and have demonstrated interest in and experience with conducting (quasi-experimental) quantitative and/or qualitative scientific research. Experience with statistical