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acceleration. While optical sensors have great advantages, they are challenged by high cost and the difficulty to distinguish various physical quantities. We address these challenges by developing broadband
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bipolar disorder. You can make it happen. Join our project Wearable sensors for monitoring of sweat metabolites. Job description Patients with chronic conditions regularly need to visit the hospital
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sensors of the future, whilst also setting the foundations for the software technologies to run on this new generation of equipment – which of course includes AI. Meanwhile we are pushing the limits
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-lab’s daily activities and research network of European graduate trainees, interns and visiting researchers, as applicable; advance multi-sensor EO threat detection and real-time intelligence fusion using
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sensor, multi buoy array deployed on Lake Victoria. You will explore the field and coordinate with local partners; oversee the integration, testing and scientific readiness of the sensor suite; support
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integrated and functional transmembrane organic ion transporters. Develop a protein-based sensor for intracellular toxin detection. Integrate synthetic cells on dialysis membranes and set the first steps
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explore new ways to build sensors, such as superradiant clocks and collaborate with industry, startups and users to bring quantum technology to the market . This project is embedded in the Quantum Delta NL
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model scenarios, and data which can be used to test the developed models. Measurements will include, for example, water content, and pressure head with local in-situ sensors. In addition we aim to carry
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continuously and collaboratively from wearable or mobile sensor data without compromising user privacy. Your efforts and collaborations with other European Union partners will contribute to the advancement
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research project “Is the brain network involved in sentence comprehension replicable and robust?”, led by Dr. Jurriaan Witteman. The project will investigate the neural mechanisms underlying sentence-level