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invertebrates (Porifera, Cnidaria, Echinodermata, Chordata) and optimizing production yields as an alternative to wild harvesting and chemical synthesis. The goal is to design a pathway towards industrial
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application is 1st of December 2025. Project description The project is focused on preparation of various carbon materials, including graphene related materials, optimized for application in sorption/separation
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involve investigating different optimization tools, antenna configurations, and waveform parameters to maximize the radar system's performance regarding accuracy, resolution, and range. Structure and
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of these materials and structures. This approach enhances both predictive simulation and inverse design strategies, optimizing the composition and arrangement of materials in the 3D design space. Within
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) for the future 6G-NTN where trade-offs around flexibility, scalability, autonomy and optimization are made with respect to the fact that the systems will execute in space. In addition, work is planned in path
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energy management, optimal configuration, a combination of different energy sources, etc. Research goals will be achieved by proper verification of the model. Applicants should fulfill the following
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-offs around flexibility, scalability, autonomy and optimization are made with respect to the fact that the systems will execute in space. In addition, work is planned in path-aware networking so that
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optimization of single-phase LCL filter inductors taking into account dynamic hysteresis models for different magnetic core materials. Supervisor: Prof. Paavo Rasilo (Electromechanics) Secondments: Université
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for in vivo studies. Leveraging recent advances in microscopy and voltage indicators, we can now observe voltage signaling within different compartments of a single cell in live animals, enabling us to
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including modelling to determine the localization, distribution, and potential on/off-target effects of ONs in vivo. The final aim is to gain know-how on how to optimize formulations for different