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areas such as autonomous systems, complex networks, data-driven modeling, learning control, optimization, and sensor fusion. The division has extensive collaborations both with industry and other research
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cutting-edge systems design, AI at the edge, optimization, and shaping future mobile networks, this is your chance to dive in. A strong focus will lie on the development of optimization algorithms
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to our lives today and in the future. Our research addresses how new information and communication technology should be designed to benefit people, organizations, and entire societies. DSV offers a
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deployment of renewable energy resources and flexibility assets. Local energy communities and peer-to-peer trading platforms promise to leverage this transformation to unlock economic and societal value by
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for future sustainable and resilient energy systems. At the same time, microgrids are complex cyber-physical systems with tightly coupled power electronics, communication infrastructure, and software-based
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propulsion in the Lunar orbit The position is part of the MSCA “E-Sailors” doctoral network (https://sisu.ut.ee/esailors/ ), a challenge-driven Doctoral Network aimed at advancing a novel space propulsion
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consists of 18 research groups covering a wide range of mathematical disciplines – from pure and applied mathematics to numerical analysis and optimization, as well as mathematical statistics and machine
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the physical layer but can also cover aspects of the media access control and network layers. The research is expected to use methodology from signal processing, communication theory, mathematics, wave
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but can also cover aspects of the media access control and network layers. The research is expected to use methodology from signal processing, communication theory, mathematics, wave propagation
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communications, network security, and advanced data-driven methods. This is a unique opportunity to contribute to pioneering research that tackles one of today’s most pressing challenges: how to design resilient