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affecting the intestinal epithelium and the possible partners related to the different phases of the disease. The work will be a combination of ex vivo organoid cultures, in vivo disease models, combined with
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contribute to REGEL’s interdisciplinary work combining qualitative case studies, quantitative research, stakeholder engagement, and energy systems modelling. We are interested in applicants with a background
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outcomes. Computational biomechanical models of the MV will be developed to offer new insights, create mechanical markers for MR progression, and evaluate repair techniques through simulations. Despite
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winter CH4 emissions, using AI tools to develop upscaling tools or upscale to circumpolar region, or using climate modeling such as the Norwegian Earth System Model to constrain models and observations
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leader will be the Head of Department. About the project Modern control systems rely on being at least partially predictive while digital twins also must maintain a state model of the targeted cyber
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about how the rate and magnitude of phenotypic plasticity evolves. This objective will be achieved via experimental laboratory studies where we will use aquatic model organisms (Daphnia and/or Gammaridae
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energy-efficient buildings Methods and models for energy demand calculation of buildings and/or neighbourhoods Methods and models for environmental life cycle assessment of buildings and/or neighbourhoods
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Operations research group is dedicated to developing and showcasing digital twin models for selected vessels through extensive ship performance and navigation data. The position is funded by the TwinShip
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tuneable materials for Earth-abundant solid-state electrolytes using atomistic simulations (primarily density functional theory, DFT, and molecular dynamics, MD) as well as developing machine learning models
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assessment of soil properties. Using 3D data and building information modelling (BIM), we will optimize excavation planning. The project requires interdisciplinary collaboration and advanced technological