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Field
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- reliable wireless communication. In the case of avionics, the most important advantages of wireless systems are weight reduction, resulting in less fuel consumption, flexibility, ease of layout, maintenance
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will investigate is ultra- reliable wireless communication. In the case of avionics, the most important advantages of wireless systems are weight reduction, resulting in less fuel consumption
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This project is to investigate novel techniques for sensing and achieving efficient wireless communication. To fulfil the needs of future communication networks, the study will explore both
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modelling of massive antenna arrays for use in future wireless communication systems. Objective 1: to generate a trained deep neural network for antenna design based on provided specifications. Objective 2
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of the main project axes that will be investigated is the ultra-reliable intra-avionic wireless communication systems. These latter have been hardly adopted in aviation where most intra-avionic connectivity
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the exisiting research collaborations. Person specification This is an exciting opportunity for a highly motivated student with a solid background in wireless communications and signal processing, who is keen to
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modules as well as recent compression techniques suggest it may be possible to run GNNs on low-power wireless networks of constrained embedded devices. This would open up many new applications for GNNs
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. References: [1] M.A. Khalighi et al., “Underwater Wireless Optical Communication; Recent Advances and Remaining Challenges,” Invited paper, ICTON, July 2014. [2] M.A. Khalighi et al.,Underwater Visible Light
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. Wireless and high-speed data transmission thus becomes one of the key characteristics of such systems. Among the existing transmission technologies, underwater wireless optical communications (UWOC
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feature of next generation wireless technology. It is envisaged that wireless transceivers will be able to communicate with active devices, and simultaneously detect, localize, and track passive targets