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on the physical layer design of wireless communication systems and explore enabling technologies for 6G and beyond wireless networks. Applicants must hold a PhD degree in electrical/electronics engineering
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. Maintain an in depth knowledge of technology including hardware, communications, and networking technologies (LAN, WAN and Wireless). Troubleshoot and resolve network problems. Work with vendors on complex
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ISAC system robustness against various types of jamming. Integrated Sensing and Communication (ISAC) systems are becoming a key enabling technology for next‑generation wireless networks. However, these
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, in an integrative and holistic fashion. For such work, there are key challenges relating to the radio channel and system design. Challenge 1: to design wireless communication systems, it is paramount
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. Qualifications Applicants must hold a PhD degree in electrical/electronics engineering, telecommunications or related field. Other requirements include: Strong background in wireless communication systems and
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international journals (IEEE Transactions on Wireless Communications, Transactions on Signal Processing, etc.). The post-doctoral researcher should be qualified to apply for professorships and endorse positions
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to recruit a Post-Doctoral Associate (PDA) who will conduct research on the physical layer design of optical wireless communication systems as enablers of wireless access/backhaul of 6G and beyond networks
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(PDA) to engage in cutting-edge research on the physical layer design of next-generation wireless communication systems, with a primary focus on 6G technologies. The research will particularly emphasize
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ICT Services & Applications. The SigCom research group of SnT, headed by Prof. Symeon Chatzinotas, focuses on wireless/satellite communications and networking. The research areas focus
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systems must integrate ultra-high bandwidth and low-latency connectivity across increasingly heterogeneous environments. Optical wireless communication networks will play a pivotal role in enabling 6G, LiFi