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, nonlinear dynamical systems, robotics, and formal methods to develop principled models and algorithms for distributed decision-making in complex and uncertain environments. Your research The candidate will
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-coupled power systems https://cordis.europa.eu/project/id/101227683 ) consortium unites leading experts from academia and industry across Europe, leveraging expertise in wind energy, power systems, power
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combine electricity, heat, hydrogen, CO₂, and other energy carriers with greenhouse climate control, resulting in a highly coupled, nonlinear, multi-timescale dynamical system. Your work will focus
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wireless transmitters must achieve extremely high linearity and spectral purity while operating with high efficiency. However, transmitter nonlinearities and hardware imperfections introduce distortion
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. Key research directions may include: Nonlinear control for complex robotic systems Distributed optimization and coordination in multi-agent systems Game-theoretic modelling of cooperative and
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for our activities on nonlinear and hybrid integrated photonics to carry out experimental research towards realizing hybrid integrated high power tunable lasers and electro-optical frequency combs
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from waveguides on the chip. By using the latest advances in electrooptic nonlinear materials, these waveguides can adjust the brightness and phase of the light at very high speed. The METAPIC project is
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Application deadline: 30/06/2026 Research theme: Applied Mathematics, Continuum Mechanics, Nonlinear PDEs How to apply: https://uom.link/pgr-apply-2425 UK only due to funding restrictions. The
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the complex multiscale nonlinear interactions at the origin of such extreme events. In this project, you will develop machine learning-based reduced-order models which can accurately forecast
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to apply Website https://lifehub.csic.es/synbio-cofund-how-to-apply/ Requirements Research FieldMathematicsEducation LevelMaster Degree or equivalent Research FieldEngineeringEducation LevelMaster Degree