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research lies in the development, integration, and use of mobile and autonomous sensors for monitoring environmental changes in agricultural landscapes. The sensor systems are intended to provide data
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for measuring flow parameters in test facilities. The following tasks are to be carried out in detail: development of sensor technology for spatially resolved measurement of gas holdup and flow velocity
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Imagine a world where sensors don’t just collect data, they think. With the exponential growth of the Internet of Things (IoT) and edge computing, the demand for ultra-low-power systems that can
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protected and open field cultivation systems Use lab and field equipment (ICP, HPLC, gas exchange analyzer, soil/root/plant sensors, chlorophyll fluorescence, etc.), data loggers and image processing tools
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electron spin resonance. For more information about the group, see: https://www.nist.gov/pml/nanoscale-device-characterization-division/nanoscale-processes-and-measurements-group/scanning . U.S. Citizen
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Helps us to derive novel climate data by combining two of Europe's new satellite sensors. If you have interests in physics, climate and machine learning, this is the Doctoral student position
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(ET) Calibrating piezoelectric force sensors and pressure sensors Analyzing pressure-front propagation and comparing with simple gas-dynamics models Assisting in the design or testing of protective
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self-healing systems, with applications in infrastructure, oil and gas, and energy-efficient construction. The successful candidate will work closely with a multidisciplinary team of postdoctoral
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of today’s most pressing environmental challenges. Greenhouse gases (GHGs) and industrial emissions such as methane (CH₄) and hydrogen (H₂) directly impact air quality, safety, and climate change. Yet
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systems using cost effective sensors and IoT devices. To enhance assessment reliability, full-scale measurements will be conducted. The results will be analysed to identify the cause of the disturbance