20 advance-soil-structure-modeling PhD positions at Trinity College Dublin in Ireland
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eligible for EU fees Post Summary The Department of Civil, Structural and Environmental Engineering at Trinity College Dublin (TCD) are seeking a PhD student in Structural Dynamics examine the design of
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Post Summary Soil respiration is the second biggest carbon flux in the terrestrial biosphere and but the atmosphere but intrinsically difficult understand and predict because it is made up
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annually, necessitating urgent development of novel therapeutic interventions. Harnessing protective immune responses is an attractive approach but advancing this requires enhanced mechanistic understanding
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that handle large network sizes and additional information – such as fine-grained temporal information for email traffic or additional neighbourhood structures – are essential. A key challenge in modelling
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the predictions of opaque models that are widely deployed in high-stakes decision making scenarios. Of particular interest to this project are example-based explanation methods that use individual data points
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, flexibility becomes an essential feature, driven by the development of flexible components and open networks. Development of Digital Twins, capable of building dynamic models from information gathered form live
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conditions to investigate feasibility for construction and operation of such a systems. It will also serve as a flagship demonstration of how district heating linked to geostructures can be incorporated
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foster resilience among international protection beneficiaries. The methodology combines desk-based analysis across legal and ethical disciplines, with semi-structured interviews with lawmakers and
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for structural variants and copy number variants (SVs/CNVs), will be used to optimize data analysis and variant discovery. The project will focus on identifying previously overlooked pathogenic variants, exploring
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under the PI to establish and optimise robust synthetic methodologies based on DES systems; carry out in-depth structural, photophysical, and electrochemical characterisation of target materials, assess