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sensing in smart environments". The PhD position involves developing algorithms to detect and track objects using Doppler shift and Angle of Arrival (AoA) analysis of Channel State Information (CSI
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! Image sensors have been used widely in our daily lives. In this project, we will develop a low-power image sensor for IoT applications such as environment monitoring in remote areas. Two key aspects
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that operate in the real world with various other PhDs and engineers. The OpenBots laboratory aims to develop a common sense capability for robots making them able to understand their surroundings and plan
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and the Built Environment – a recognised centre of expertise in working on urban inequality with longitudinal microdata –, and link up with the Multi-actor systems group at the TPM faculty of TU Delft
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that operate in the real world with various other PhDs and engineers. The OpenBots laboratory aims to develop a common sense capability for robots making them able to understand their surroundings and plan
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. For these vibrating systems to enter the quantum realm, a high degree of decoupling from the environment is required [2]. One viable way is to use electromagnetic radiation to levitate these objects in vacuum
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from 1 atm – 0.2 atm, a wide range of humidity, combine with an environment with a significant amount of vibrations. This, in combination with high voltage, increases the aging rate as
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. Your direct working environment will include a large pool of PhD students of MS3 (see radar.tudelft.nl). You will also interact with the partner organizations that are part of the consortium
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Graduate School. The TU Delft Graduate School provides an inspiring research environment with an excellent team of supervisors, academic staff and a mentor. The Doctoral Education Programme is aimed
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to enrich for the EBPR community under different substrate conditions in dynamic environments, apply cutting-edge omics techniques, including metagenomics, metaproteomics and metabolomics. As a PhD in the