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group, Division of Communication Systems, Antennas and Optical Networks, Departmet of Electrical Engineering. We pride ourselves on fostering scientific excellence, innovation, and collaboration with
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with antenna array signal processing techniques Sound understanding of optimization methods and algorithms Proficiency in Python programming Proven publication record in top-tier international journals
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control within a collaborative and dynamic environment. About us At the department of Electrical Engineering research and education are performed in the areas of Communications, Antennas and Optical
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learning-based control within a collaborative and dynamic environment. About us At the department of Electrical Engineering research and education are performed in the areas of Communications, Antennas and
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). Demonstrable ability to design, simulate, and prototype RF components, particularly passive structures such as resonators and antennas. Knowledge of electromagnetic simulation tools (e.g., CST, HFSS, ADS) for RF
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new era in the exploration of the universe. The addition of the Virgo antenna into the network led in 2017 to the detection of a neutron star binary merger that could be followed in electromagnetic
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. Applicants must have: A relevant PhD degree (Wireless Communications, or a related field) Demonstrated research experience in physical layer, multi-antenna technologies, medium access control of wireless
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and intelligent networked systems, including theoretical and system-level research Demonstrated capability in advanced communication technologies, antenna systems, and machine learning–enabled methods
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computational tools and/or work in the lab which focuses on radio detection of neutrinos and includes work on mechanical design, high-frequency electronics, antennas for experiments deployed in remote locations
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new era in the exploration of the universe. The addition of the Virgo antenna into the network led in 2017 to the detection of a neutron star binary merger that could be followed in electromagnetic