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, channel sounding, and multipath modeling (channel impulse response, frequency response, MIMO models, AoA, AoD, delay, Doppler, etc). RF Systems: Familiarity with RF front-ends, antennas, calibration
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PON. 3) optimization of VLC-based wireless access, employing advanced multiple-input multiple-output (MIMO) processing strategies, aiming at end-user data-rates exceeding 50 Gbps. 4) reporting
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foundations and practical transceiver designs, the project aims to overcome these challenges and contribute to the efficient deployment of XL-MIMO technologies in future 6G systems. Where to apply Website https
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Join us as a postdoc at the Microwave Electronics Laboratory to solve one of the toughest challenges in modern RF design: eliminating self-interference to enable true In-Band Full-Duplex for MIMO
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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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in the signal quality between legitimate terminals and attackers. New technologies, such as sharp beamforming using massive MIMO as well as distributed MIMO, channel engineering using Reconfigurable
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may refer to https://www.uni.lu/snt-en/research-groups/sigcom/ . The successful candidate will conduct research on quantum MIMO systems, focusing on the development of theoretical models, communication
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on cutting edge technological areas, such as artificial intelligence for wireless, neuromorphic computing, remote sensing, quantum communications, 6G satellite systems or ultra massive MIMO, among others? CTTC
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of distributed MIMO, and/or coordinated multi-AP operation (under study in the Wi-Fi 8 standardisation workgroup), using Hardware Description Language on FPGA, based on the open-source openwifi project (https
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and advanced solutions for optical wireless networking — from physical-layer modulation and optical multiple-input multiple output (MIMO) to network orchestration and adaptive link control. You will