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Solution project " ASMADI - AI based Spectrum Monitoring for Anomaly Detection and Identification" to develop signal processing algorithms that enable autonomous detection, classification, and filtering
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the research on Integrated Sensing and Communications (ISAC) with Reconfigurable Intelligent Metasurfaces (RIS). Key Responsibilities: Design the algorithm for Integrated Sensing and Communications
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resolution, treatment precision, and safety. The candidate will be involved in one or more of these areas, including the design of novel reconstruction algorithms, antenna elements, imaging and hyperthermia
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ISAC demonstrators. Implement and optimize advanced signal processing algorithms for joint communication and sensing. Analyze experimental datasets, extract statistical models, and compare findings
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/software testbed. Integrate SDRs (e.g., USRPs, RFSoC) and RF front-ends (FR2, FR3, V-band) into end-to-end ISAC demonstrators. Implement and optimize advanced signal processing algorithms for joint
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, antenna design, Industry 4.0 technologies, and composites engineering. Our composites team has a strong track record in using microwave heating for curing carbon fibre components, and we are now developing
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; Secure research spaces for specialized projects. The Drone Laboratory provides a controlled environment for spectrum characterization, RF algorithm development, countermeasure testing, and integration of C
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of advanced testbeds to the implementation of antenna structures. We are now looking for a new colleague in the form of a doctoral student in Electrical Engineering with focus on secure distributed learning
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of advanced and innovative methodologies for the design of unconventional antenna arrays based on the concepts such as modular tiling, irregular clustering, and sparsening/thinning, as
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on Antennas and Propagation, Volume 61(3): 1285, 2013 Gimbutas Z, Greengard L: Journal of Computational Physics 232: 22, 2013. doi:http://dx.doi.0rg10.1016/jjcp.2012.01.041, arXiv:1104.5293v1 key words