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expertise in areas ranging from nanoelectronics, phototonics, signal processing, radio technology and acoustics to satellite technology and autonomous systems. Knowledge of electronic systems is also vital
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in liquid-like lasers (fast-gain devices with quasi-constant intensity) we can go further: resonant radio-frequency (RF) modulation transforms the spectrum into a synthetic frequency lattice, enabling
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and validating architectures tolerant to faults and interference (jamming/spoofing) and robust to radiation-induced degradation, adaptive beamforming, and AI-based radio control. The role spans models
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. To meet the demands for accuracy and robustness from emerging applications such as urban air mobility and defence, the navigation community is moving toward cognitive, multi-domain solutions that can
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of mRNA stability and/or translation efficiency. By systematically identifying and analysing these sRNAs, the study aims to address key knowledge gaps about how this gut symbiont maintains its commensal and
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research results. In addition, students will have the opportunity to attend various training modules varying from lab methodologies and techniques to soft skills. These courses provide profound knowledge in
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—remains a critical challenge. This project will focus on designing AI-driven cognitive navigation solutions that can adaptively fuse multiple sensor sources under uncertainty, enabling safe and efficient
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. The Theranostics laboratory studies developing new PET probes for management of advanced malignancies and novel radio-ligand therapies for cancer. We are particularly interested in the preclinical development
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autonomous sensing systems. The project requires experience with setting up sensing hardware, software defined radio systems and other lab equipment for data collection in addition to experience of programming
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(e.g., using Matlab) and in real-life using Software Defined Radios (SDRs). You will write detailed technical evaluation reports on the developed solutions, implementation, and experiments, leading