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for people with Parkinson’s disease. Within the lab, researchers from both technical and clinical backgrounds work closely together to create and validate digital biomarkers using real-life wearable sensor and
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well as postgraduate and undergraduate education within areas such as autonomous systems, complex networks, data-driven modeling, learning control, optimization, and sensor fusion. The division has extensive
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across different imaging devices, including future sensors with unknown spectral sensitivities. Training The student will be based at the Colour & Imaging Lab at the School of Computing Sciences which has
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/ . The group has been working on mmWave radar sensors in different applications, including automotive, indoor sensing, in-cabin monitoring, occupancy sensing, drones, multi-copters, gesture recognition, smart
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to simulate cascading disaster effects, as well as satellite and sensor data, looking specifically at 6 different use cases across Europe. In addition to the detailed innovative analysis of existing methods and
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transduction could enable a new class of transistor circuits as well as novel sensor and transducers. Your PhD project will focus on both the fundamental physics of these devices with modelling, fabrication, and
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(SFDI) and also from our custom-built photoplethysmography (PPG) sensor. Applicant should have experience in time-series processing with appropriate AI models (recurrent networks, LSTM) and experience in
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transistor is still early investigation. P-type GaN transduction could enable a new class of transistor circuits as well as novel sensor and transducers. Your PhD project will focus on both the fundamental
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, companies and governmental agencies in the center. Together you will pursue different applications and explore different AI methodologies. The PhD candidate will be supervised by Professor Edmund Førland
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the candidate will work on different projects aimed at developing control frameworks for soft continuum surgical robots across various surgical applications, using techniques such as advanced sensing, AI-based