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– the subject of this project. This PhD project is funded as part of Professor Keith Worden’s EPSRC Open Fellowship on New Ways Forward in Nonlinear Structural Dynamics. It will support the main project by
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systems. The study focuses on the fundamental design, analysis, optimisation, and investigation of nonlinear dynamics in MEMS sensors, with a particular emphasis on enhancing sensitivity through
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into practical/applicable engineering solutions. This PhD project is funded as part of Professor Keith Worden’s EPSRC Open Fellowship on New Ways Forward in Nonlinear Structural Dynamics. They will support the
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Profile: We seek someone with strong mathematical maturity in control theory, dynamical systems, or applied mathematics. Familiarity with nonlinear systems analysis, graph theory, and formal methods (e.g
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Establishment). Recent work by the group (leading to REF 4* rated outputs and several Keynotes) has contributed to bridging the gap between Computational Solid and Fluid Dynamics, with a unified computational
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correction. We focus on circuits containing elements that exhibit optical nonlinearities originating from atom-like N -level systems or bulk nonlinearities. Responsibilities Your primary responsibilities will
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friction dampers. The multi-harmonic nonlinear vibrations of bladed disks with friction dampers will be studied and optimised to reduce the vibration stresses. The overall goal is to develop and gain insight
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reliability and operational efficiency. Determining the optimal size and location of PSTs within a network is inherently complex due to the nonlinear and dynamic nature of power systems, necessitating the use
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Description TUD Dresden University of Technology, as a University of Excellence, is one of the leading and most dynamic research institutions in the country. TUD has established the Collaborative
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explore the nonlinear structural dynamics of LGSs to fully understand the complexity of their control. They will use this foundation to explore idealised and realistic control laws to virtually “stiffen