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of advanced antenna technologies for Integrated Sensing and Communication (ISAC) systems. The research will investigate passive and active antenna arrays operating in centimeter- and millimeter-wave bands
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State Information (CSI) in dense CF networks, while supporting infrastructure with a high number of antennas; Scalable solutions for the interconnection of data-centers, to enable distributed neuromorphic
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, funded by the European Commission. You can find more information on this project at NEWTON, https://newton-6g.eu/ . The Doctoral Network is led by IQUADRAT, the ATHINA-EREVNITIKO KENTRO KAINOTOMIAS STIS
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this project, your work will be to research how this monitoring can be done, and how it can feed into a larger system. Your focus will be on RF- and antenna design for reception of reflected GNSS signals
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7th April 2026 Languages English English English The Department of Electronic Systems has a vacancy for a PhD Candidate in RF/antenna design for GNSS reflectometry from small satellites Apply
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to pack a large number of antenna elements at the transmitter and receiver side, thus enabling ultra-massive multiple-input multiple-output (UM-MIMO) with the potential of tera-bits per second data rates
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for the future of mobile and satellite communications. Fields of applications range from 5G/6G telecommunications to satellite-based internet connectivity. For details, you may refer to the following: https
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, Italy), https://phd.unibo.it/etit/en Supervisors: Prof. Anna Guerra, Dr. Francesco Guidi Project Context: The selected candidate will join the ERC Starting Grant project “CUE GO – Contextual Radio Cues
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to characterise the properties of radio antennas as used in modern radio interferometers (e. g., MeerKAT, LOFAR, SKA). The goal is to establish accurate models for antenna responses and describe their uncertainties
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the DFG Priority Programme “Molecular Machine Learning” and embedded in the research project “Multi-fidelity, active learning strategies for exciton transfer in cryptophyte antenna complexes”. The PhD