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that interface with human stem cells, investigate cellular and molecular mechanisms governing development and pathology, lead experiments from conception through publication in high-impact journals, mentor
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molecules tailored for DNP-NMR applications, benefiting from NYUAD’s state-of-the-art research infrastructure for organic synthesis and molecular characterization. Key Responsibilities Candidate will be
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for physical systems. The postdoc will work on projects focusing on one or more of the following: Robot Learning & Autonomy – Developing algorithms that allow robots to learn (via exploration or imitation) from
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optical measurement setups, including the design and execution of channel sounding or propagation measurement campaigns Experience with RF/optical ray tracing simulation software, e.g., Wireless Insite
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models for signal transmission and reception, derivation of fundamental performance limits, algorithmic-level system design, and performance evaluation through computer simulations and/or experimental
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of performance limits, algorithmic-level system design and performance evaluation via computer simulations and/or experimental means. The PDA is expected to actively disseminate results through publications in
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combination of techniques such as rodent behavioral analysis, biochemical, molecular and cell biology, in vivo and in vitro fluorescence imaging, and next-generation sequencing. Position duties would include
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, or related fields Strong background in game theory, mechanism design, control systems, and/or learning theory Programming proficiency and experience with simulation tools Excellent publication record in peer
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Engineering, Computer Science, Applied Mathematics, or related fields Strong background in control systems, machine learning, and scientific computing Programming proficiency and experience with simulation
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collaborators in material science. The developed technologies will be utilized to develop digital twin and soft robot-assisted simulations in the areas of brain machine interaction, wearable haptics, and