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the present paradigm. It therefore will be possible to connect more customers to the network when real-time becomes the dominant system operation methodology. This research position will focus on the system
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construction 4.0 by focusing on 1) creating a roadmap for transitioning to a digitally integrated circular supply/value chain, 2) developing a prototype digital twin for scenario analysis for off-site and on
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integrated circular supply/value chain, 2) a prototype digital twin for scenario analysis for off-site logistics planning, and 3) a prototype information system for digital product flows in the chain. This PhD
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environment in which we spent ~90% of our time? This PhD research, as part of a larger project, may initiate a paradigm shift in how we ventilate our buildings. Interested in this exciting challenge? Then
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research tracks: freeform design, imaging optics and improved direct methods; for more details see https://www.win.tue.nl/~martijna/Optics/ . The following mathematical disciplines are important in our work
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image processing domain and excellent programming skills. More specifically, the candidates should have experience in object detection, segmentation and classification. Experience with anomaly detection
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for multi-camera data analysis and synthetic video generation. Generation of free viewpoint synthetic video streams for multi-camera broadcast setups will enable a fundamental shift in the viewing paradigm
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. The TU/e-led UPSCALE project aims to enable the targeted and needed socio-technical paradigm shift via a systemic and interdisciplinary approach and collaboration throughout the entire construction
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to further enhance the angular and range resolution as to improve the imaging capabilities to further improve safety and to allow level-5 autonomous driving. Radar sensing systems operate at millimeter-wave