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in multiple input multiple output (MIMO) wireless connectivity Experience of fabrication of antenna prototypes, skills in RF test and measurement such as using a vector network analyser Ability
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that can power the next generation of wireless infrastructure. We will explore how to combine heterogeneous computing platforms with distributed MIMO architectures to support both real-time AI workloads and
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). The beneficiary of this contract will perform tasks related to activity 3.1 (Model-based and data-driven approaches to RIS design within work package 3 (Enabling MIMO technologies for mmWave bands). More
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on dynamic spectrum allocation between operators and changing propagation conditions. For instance, multiple-antenna systems can use all antennas together in the same band, achieving high-order MIMO or multi
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must be compatible with massive MIMO architectures, necessitating full-duplex operation and reciprocity. The project aims to establish an innovative IC-antenna co-design methodology for full-duplex
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for wireless repeaters for the 6th generation mobile communication systems (6G), especially for so-called massive MIMO systems. The frequency range is 7-12GHz, part of the so-called FR3 frequency range in 6G
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communications and networks Beamforming and MIMO algorithms Millimeter wave communications Terahertz band communications Visible light communications Channel modeling and/or interference modeling Beam tracking and
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, Future Energy Systems and Advanced Materials, Electronics and Communications) and eight Research Nodes which group staff under technical expertise and interest (see https://www.durham.ac.uk/departments
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quantum technologies. More details about our SiP Lab can be found at: https://www.mq.edu.au/faculty-of-science-and-engineering/our-research/silicon-platforms-lab How to Apply To be considered
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signals data, and accurately extrapolate the total exposure in massive MIMO mobile networks, where time multiplexing and beamforming create complex exposure patterns that deviate from the mean exposure in