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decision-making. Examples include crowd management and large-scale communication networks based on cellular or wireless sensors. For instance, during mass gatherings such as the sport matches (e.g
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to demonstrate real-world feasibility. The overarching goal is to bridge high-level algorithmic innovation with energy-aware hardware deployment, enabling intelligent sensor systems that act as autonomous micro
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Distributed radar systems comprise a coherent network of spatially distributed sensors that can be independently transmitting, receiving, or both. By acting in unison, rather than in isolation
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. Work Plan Currently, IPFN is involved in the development of diagnostics for the DEMO tokamak. These diagnostics include (but are not limited to) the reflectometers and the magnetic sensors. The candidate
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assays for assessing host cell interactions with pathogens. . Relevant links Peyman Profile: https://researchportal.hw.ac.uk/en/persons/sally-peyman/ University website: https://www.hw.ac.uk/ LinkedIn
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, around an existing plasmonic sensor. This role requires an engineer with a broad, practical skillset and demonstrable experience in building and troubleshooting physical prototype instruments, ideally in
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about the Shih Lab: Learn more about the innovative work led by Dr. William Shih here: https://www.shih.hms.harvard.edu/ . What you’ll do: Develop DNA-based sensors that seed crisscross assembly of single
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•Nanofabrication and demonstration of optoelectronic devices (e.g., LEDs, infrared cameras, and gas sensors)•Optical and multiphysics simulations (e.g., Lumerical FDTD, COMSOL)We offer a collaborative and supportive
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of quantum dots, 1D/2D materials, and organics•Nanofabrication and demonstration of optoelectronic devices (e.g., LEDs, infrared cameras, and gas sensors)•Optical and multiphysics simulations (e.g., Lumerical
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Posting Details Posting Information Posting Number PG194336EP Internal Recruitment No Working Title Assistant Professor - Robotics & Sensors Anticipated Hiring Range $95,000 - $105,000 Work Schedule