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(e.g., Kalman Filter) or Machine Learning models. These tools will be integrated with physics-based models of environmental loading (waves and wind) to enhance the accuracy and robustness
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. These tools will be integrated with physics-based models of environmental loading (waves and wind) to enhance the accuracy and robustness of the assessment. All components assembled together will finally inform
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. The position will involve development of codes/models simulating the nucleation and propagation of stress corrosion cracking in samples under low cycle fatigue conditions, as well as models for linking
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the frontiers of theoretical photonics, deepen our understanding of fundamental wave-phenomena, and investigate the fundamentals and applications of topology in photonics. Responsibilities You will carry out
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passionate, driven, and ready to make waves, we want you on our team! Our inclusive research environment values diverse perspectives and encourages applications from candidates of all backgrounds. Let’s build