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at developing foundations of AI for the present and the future. This includes the design of new AI methods, development of AI algorithms, and tools with a view at expanding the reach of AI and its generalization
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and a top-five position in collaborating with advanced industries. Fundamental knowledge enables us to design solutions for the highly complex problems of today and tomorrow. Curious to hear more about
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operation “rules” and “controls” to maintain the system balance, system security and integrity under dominant adaptive real-time control and the resulting impact on the energy market design. The research
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Irène Curie Fellowship No Department(s) Industrial Engineering and Innovation Sciences Reference number V39.7477 Job description This project is on advanced logistics for circular manufacturing
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and mapping into programmable layout designs on chip, exploiting multi-project wafer and dedicated runs on IMOS, to include laser sources, modulators, PDs and all devices needed for enabling neural
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Irène Curie Fellowship No Department(s) Industrial Engineering and Innovation Sciences Reference number V39.7456 Job description Are you fascinated by the question of how society can be carbon
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Irène Curie Fellowship No Department(s) Industrial Engineering and Innovation Sciences Reference number V39.7448 Job description Are you fascinated by the question of how we can transition to a
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Irène Curie Fellowship No Department(s) Industrial Engineering and Innovation Sciences Reference number V39.7474 Job description Today, many companies in various industries need to manage highly
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physics & plasma chemistry pathways, the product spectrum of CO2 upgrading, product identification, process parameters, reactor design and construction of the experimental setup. Then, experimental
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University of Technology. In EES’ High-Voltage laboratory (a 14x14x8m Faraday cage) we work on (nanosecond) high-voltage pulse source design, plasmas, pulsed power applications and all the intermediate steps