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emerging spectrum (FR3, MMW, sub-THz/THz) Extreme massive MIMO communications Analog, digital and hybrid beamforming architectures Reconfigurable intelligent surfaces Machine learning for wireless
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participation in several European and Dutch national projects. Our key research areas include ultra-reliable low latency communications, resource allocation, digital twins, distributed massive MIMO and flexible
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stations, small satellite antennas, drone antennas, phased array antennas, massive MIMO antennas, metasurfaces, bio-electromagnetics, and wireless sensors. Qualification requirements Appointment as postdoc
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NR NTN) physical layer and radio access concepts, including OFDM, MIMO, synchronization, channel estimation and link adaptation Proven experience in signal processing for communications and/or radar
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Inria, the French national research institute for the digital sciences | Palaiseau, le de France | France | 3 months ago
, Malaysia, December 04–08, 2023. [9] N. Shlezinger, R. Fu, Y. C. Eldar, "DeepSIC: Deep Soft Interference Cancellation for Multiuser MIMO Detection,"" IEEE Transactions on Wireless Communications, vol. 20
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coexistence of heterogeneous wireless systems, full-duplex transmissions, ultra-low-latency mobile edge computing (MEC), network slicing, physical-layer wireless security, satellite communications, MIMO systems
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communications. The group is equipped with an extensive array of resources. The group is actively involved in multiple research areas, including: Frontier beam and MIMO technologies for swarm control and ISAC in
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MIMO communications Analog, digital and hybrid beamforming architectures Reconfigurable intelligent surfaces Machine learning for wireless communications Hardware-constrained signal processing