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specifically intended to deliver a “new generation of tools for system-level evaluation of wireless integrated communication systems towards the society's digital transformation”. The R&D has extensive know-how
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wireless telecommunications [2]. The field of THz spectroscopy has seen significant progress in terms of pulse energy, tunability and bandwidth. THz pulses can be generated by converting ultrafast laser
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energy sources, electric vehicles, industrial IoT, AI, 6G communication and wireless sensor networks as well as research and education within Life Science, smart electronic sensors and medical systems
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familiarity with fundamental concepts) in several of the following topics: Signal processing for wireless communication. Solid background in optimization and information theory. Good understanding
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applications, including 5G/6G wireless communication systems, satellites, radars, and drones. A key focus of the project is to create low-cost antennas and mm-wave devices capable of delivering unique
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. The doctoral researcher will contribute to the Academy of Finland funded international (teams from US and Finland) project META: Self-Programmable Metasurface Networks for Wireless Communications and IoT. At a
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applications, including 5G/6G wireless communication systems, satellites, radars, and drones. A key focus of the project is to create low-cost antennas and mm-wave devices capable of delivering unique
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capacity radio access technologies such as wireless back-hauling at sub-TeraHertz frequencies, Joint Communication And Sensing, Non Terrestrial Networks and Network as a Sensor. New classes of chipsets will
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research Strong background in linear algebra, signal processing, detection an destimation, and optimization. Background in radar and wireless communications is desirable, but not mandatory Experience in
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, and Unicast for Mission Critical Communication," in Proceedings of the International Symposium on Wireless Personal Multimedia Communications (WPMC), Okayama, Japan, 2021, pp. 1–6. M. M. Anis