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Field
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novel quantum photonic devices. Such quantum devices are central for quantum information networks, quantum computation, and quantum cryptography systems, and lie at the basis of a forthcoming Quantum
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on the use of animal- and resource-based indicators of animal welfare – obtained by for example sensors, clinical examination, ethological methodology and assessment of microclimatic conditions. The position
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stochastic constraints, Implicit regularization in neural networks, Optimization with quantum computation, Distributed optimization and federated learning, Operator splitting methods in optimization, Continual
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emissions from agricultural systems are rapidly needed to meet the goal of net-zero production, while maintaining yields, avoiding pollution swapping, and promoting farmer’s engagement to adopt mitigation
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, design and build a LoRa network infrastructure suitable for agricultural environments. Select appropriate hardware and sensors for data collection. Configure and deploy LoRa gateways and end devices
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and energy-efficient massive MIMO (mMIMO) base stations, our research directly addresses the growing global demand for more sustainable and reliable wireless networks. The DTX technology promises
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under wet and dry conditions at a field trial. Utilizing and validating digital sensors (soil probe, drone data) for crop water use determination. Crop modelling (e.g.) APSIM for perennial grain crops
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researchers across Europe through our project networks. Last but not least, you will be part of the young and motivated Bioelectronics research team at TU Delft. You will collaborate and supervise PhD and/or
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(National Ecological Observatory Network), and/or GLEON (Global Lake Ecological Observatory Network) and a suite of process and machine learning models; coupling catchment and lake models to build new
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supervisors and mentors from DTU and Novo Nordisk. Opportunities to participate in conferences, symposia, and networking events to share and enhance your research. Your role will be pivotal in driving