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at the nanoscale. The interaction between these waves allows to consider functionalities that are essential in Information and Communication Technologies (ICT) systems. Particularly, the exchange of information and
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energy-consuming computations using placement of computations, optimization of communication, rate limiting, scaling etc. Distributed computations are represented and energy contexts maintained in
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Professor recruited will be involved in teaching in one or more areas of Section 61, Computer Engineering (Real Time, Architecture, Networks), Automatics (Continuous and Discrete Automatics, Robotics
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what would be the optimal float network to reduce uncertainty in estimates of CO2 flux between a denser network of small O2/wind floats, or a sparser network of large O2/pH/wind floats which are five
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language models and computational tools. This approach will centralize the end-to-end processing, transforming raw experimental data into an enriched graph exploitable via natural language. Evaluation will
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information. Contexts are also harnessed in order to actively manage energy-consuming computations using placement of computations, optimization of communication, rate limiting, scaling etc. Distributed
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of deep-body implantable devices ,” IEEE Trans. Microw. Theory Techn.71, 2023. X. Tian et al., “Implant-to-implant wireless networking with metamaterial textiles ,” Nat. Commun.14, 2023. Research Focus
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optimization for future wireless communication systems (Beyond 5G and 6G), with a strong focus on sustainability. The activities will be fully carried out in the framework of a European flagship project on 6G
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on: - Inverse reinforced learning neural network algorithms to autonomously set optimal robotic sca ning parameters for optimal topographic imaging of biomolecules and drug nanoparticle carriers, including
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a great potential for ultra-high-speed wireless communication, with data rates far surpassing those of current 5G systems. We are currently hiring a post-doc with expertise in finite-element