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of Warwick. With world-leading expertise and facilities in electrochemistry, materials chemistry, spectroscopy, microscopy, modelling and battery and fuel cell construction and testing, we aim to develop next
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used to advance root phenotyping and soil functions. Soil-root interactions will be analyzed across management scenarios using geophysics and numerical modeling. High-resolution subsoil characterization
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be developing advanced spatial models such as graph-based approaches and network analytics to predict how blue network dynamics, fragmentation and surrounding land use interact to shape ecosystem
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; Ridder et al., 2020). For instance, prolonged droughts can harden soils and reduce infiltration, making it more vulnerable to flash flooding when heavy rainfall occurs. Successive heavy rainfall events can
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within the themes developed by the following three teams: • “Geomaterials and Sustainable Construction”: Research focuses on natural and anthropogenic geomaterials (soils, raw and bio-based materials
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. The research is based on strong competences on electrochemistry, atomic scale and multi-physics modelling, autonomous materials discovery, materials processing, and structural analyses. We also focus
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framework to incorporate annotation probabilities in hierarchical models. · Use long-term passive-acoustic datasets from at least two projects investigating the role of forest structure and composition
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advanced urban planning policies. Their strategic locations in Northern Europe make them an ideal case study for modelling urban dynamics using advanced remote sensing, AI and new mathematical approaches
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Engineering, NTNU, has a vacancy for a 3-year PhD position for research on deicing of roads by utilising shallow geothermal energy for Norwegian ground and climatic conditions. The Geotechnical Engineering
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of contaminated soils on soil strength and erosion control. Developing a Model for the Adoption of Agentic AI in Facilities Management: Enabling Autonomous Decision-Making for Sustainable Built Environments