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team. Learn more about the innovative work led by Dr. Don Ingber here: https://wyss.harvard.edu/technology/erapid-multiplexed-electrochemical-sensors-for-fast-accurate-portable-diagnostics/. What you’ll
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position within a Research Infrastructure? No Offer Description This project proposes the development of flexible wearable sensors for application in agriculture, with a focus on monitoring plant health
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Objectives: Design and optimize miniaturized electrochemical biosensors for in vivo measurements. Integrate the sensors into a biological environment, in collaboration with experts in pharmacology, analytical
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performances for the inference of a wide range of behaviours, activities and postures, possibly down to the level of the bite. Other sensors, such as microphones and pressure sensors have been explored but
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will lead the natural language processing and language modelling aspects of the project, focusing on how sensor-derived motion data (from radar) can be transformed into linguistically meaningful BSL
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biogeochemical sensors, supporting long-term monitoring networks. • 20% — Perform laboratory analyses, including soil chemistry, water quality measurement, and sample processing. • 20% — Assist with data
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smart electrical grid that increasingly relies on the use of intermittent renewable energy sources. Modern integrated building automation and control systems create an environment rich with sensor data
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. Optimal sensor placement, identified through adjoint-based sensitivity analysis to improve assimilation efficiency. By embedding physical laws into data assimilation, these methods bridge the gap between
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Description We are seeking a highly motivated Research Engineer to join our research lab and contribute to the development of wireless sensor systems for Structural Health Monitoring (SHM) applications
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improvement. Responsibilities Teach UG engineering technology courses in mechatronics-related areas, such as: Applied mechatronic systems and integration Sensors, actuators, and instrumentation Embedded