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testing, and online convex optimization. This work is part of the ERC Advanced Grant project CONTRACT, which seeks to redefine the role of AI in wireless networks—from a potential reliability concern to a
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, data-limited, and dynamically evolving environments. Applications include complex engineered systems such as intelligent communication networks, distributed computing platforms, and quantum-enhanced
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Description of Post The WiSAR Lab and Technology Gateway is an innovative research centre focused on the research and development of wireless systems including IoT, Body Worn Devices, wearable
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development of wireless activation and communication systems enabling safe, efficient, and selective control of neurobots. Your work will focus on wireless energy transfer, external transmitter/receiver systems
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team also has experience with multi-sensor systems including lidar, inertial sensing within the context of real-time SLAM and autonomous exploration. The researcher will have the opportunity to establish
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. AI-driven technology to achieve optimal performance Integrate developed PA techniques into practical active antenna array demonstrators. Conduct experiment with existing USRP platform for wireless end
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of wireless activation and communication systems that enable safe, efficient, and selective control of the implantable neurobots. This includes developing wireless energy transfer technologies, external
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, School of Physical Sciences, and the University of Lincoln’s research themes of Sustainability and Net Zero. You will have, or will soon obtain, a PhD in chemistry. Each of the positions will require
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experimentally validate sensors and AI software for medical imaging, 2) Integrate pioneering and proven tools for the early cancer detection, and 3) Examine clinical workflows and validate the established systems
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degree (or near completion) in Electrical Engineering, Computer Science, or a closely related subject. Research experience in wireless communications and deep learning is essential. The project will also