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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
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/sigcom In addition, SIGCOM hosts the following experimental facilities: 6GSpaceLab: Real-world validation of advanced communication algorithms CommLab: Real-time wireless testbeds for DSP in satellite and
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/sigcom . In addition, SIGCOM hosts the following experimental facilities: 6GSpaceLab: Real-world testing and validation of advanced communication algorithms CommLab: Real-time wireless testbeds for DSP in
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. Expected Work: The selected candidate will conduct research at the intersection of wireless communications, signal processing, and control theory, aiming to develop cutting-edge algorithms for joint
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and familiarity with radar signal-processing algorithms. Key responsibilities include contributing to radar hardware architecture, system integration, and the construction of experimental sensing
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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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, and fine-grained sensing. In this PhD project, you will develop advanced signal processing techniques that empower a single UWB multi-antenna radio platform to perform all these functions concurrently
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are invited to apply for the position to conduct research on advanced computational algorithms for modelling of complex electromagnetic scattering and diffraction phenomena. The successful candidate will
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-processing, information extraction, and post-processing using existing SDR frameworks and algorithms Rapidly prototype SDR signal chains and systems through design, programming, hardware integration, testing