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The project: Electromagnetic (EM) sensing is on the brink of a step-change. Once limited by computation and data-processing power, EM sensing is now being transformed by advances in high-performance computing and machine learning—unlocking new possibilities for precision metrology and...
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covers the aspects of sensing, detection and classification in radar-based perception. Key competencies/skills required for the project: signal/array processing, machine learning/AI, MIMO/Radar systems
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relationships in unprecedented detail. This information then informs rational catalyst design and formulation that are investigated with a wide array of larger scale techniques. Example project areas include
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Research Group at Newcastle University with next-generation Field Programmable Gate Array (FPGA) hardware technologies i.e. OpenFPGA. Number Of Awards 1 Start Date 1st October 2026 Award Duration 4 Years
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competencies/skills required for the project: signal/array processing, machine learning/AI, MIMO/Radar systems, MATLAB/Python programming. Number Of Awards 1 Start Date 1st October 2026 Award Duration 4 Years
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Programmable Gate Array (FPGA) hardware technologies i.e. OpenFPGA. Number Of Awards 1 Start Date 1st October 2026 Award Duration 4 Years Sponsor EPSRC Supervisors Tousif Rahman Rishad Shafik Alex Yakovlev
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quantum behaviour in atomic arrays [1]. We ask how the quantum dynamics changes when such systems are placed in optical cavities. We have previously shown that photon correlations can reveal information
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key data to demonstrate feasibility for climate mitigation. The student will optimise nanoparticle synthesis and transformations of an array of iron nanoparticles. This also requires culturing algae
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pressure, not localized contractile forces. This project will develop a soft, capacitive iontronic sensor array integrated into a swallowable capsule to capture spatiotemporal pressure profiles of
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-partnership References: Thynne E, et al. An array of Zymoseptoria tritici effectors suppress plant immune responses. Mol Plant Pathol. 2024 Oct;25(10):e13500. doi: 10.1111/mpp.13500. PMID: 39394693; PMCID