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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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, conformable antenna structures. Your designs will make it possible to integrate digital technology platforms in previously unrealised ways and places, enhancing device communication and functionality across
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group, in the School of Engineering, University of Birmingham. The PhD project: Antennas are a key component of communication and sensing systems; however, existing antenna technologies suffer from a
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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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15th 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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beamforming strategies for multi-antenna systems to enable precise and stealthy transmission of signals, minimising detection while maximising operational effectiveness. This scholarship will be filled upon
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, optical spectrum analyser, vector network analyser, signal generator, arbitrary wave generator, antenna positioning systems, software defined radio (SDR) modules, analogic modulation systems digital
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, analyze their temporal and spectral correlations, and evaluate their detectability. Special focus will be placed on advancing RF techniques through the design and development of a dedicated RF antenna to
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common materials in new ways to build bespoke, miniaturised antennas using magnetic nanoparticle structures. Your designs will make it possible to integrate digital technology platforms in previously
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, including Laser Interferometer Space Antenna (LISA), Einstein Telescope, Square Kilometre Array Observatory (SKAO), and NANOGrav. This involvement will enable them to compare theoretical predictions directly