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to each other and communicate in an efficient and automated manner. WaterFRAME (Water Fit for Reuse Architecture and Modelling Ecosystem) is a FWO Strategic Basic Research (SBO) project that aims
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will be investigated and developed through custom photonic IC and electronic IC design. The resulting receiver architectures and circuits will be fabricated through MPWs and assembled in functional sub
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on factors such as input complexity, desired accuracy, or remaining battery capacity. This approach, compared to traditional architectures with fixed inference paths, proves to be more efficient in terms
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through custom photonic IC and electronic IC design. The resulting receiver architectures and circuits will be fabricated through MPWs and assembled in functional sub-systems. The PhD student working
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Job description The Department of Structural Engineering and Building Materials of the Faculty of Engineering and Architecture, at Ghent University currently is looking for a PhD Researcher on the
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models, etc.) of the system to be connected to each other and communicate in an efficient and automated manner. WaterFRAME (Water Fit for Reuse Architecture and Modelling Ecosystem) is a FWO Strategic
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next generation Wi-Fi needs to support distributed and coordinated AP architectures, whereby multiple APs can simultaneously serve a single user with coherent beamforming. In short, we want to advance
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. MST-DyMaLab is a research group of the faculty of Engineering and Architecture of Ghent University, which is among the top 100 global universities according to several international rankings