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. The department leverages its unique research infrastructure and lab facilities to conduct world-leading fundamental and applied research within communication, networks, control systems, AI, sound, cyber security
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focus on factory and line level, where three research topics are defined: 1) Conceptual design principles and methods for resilient manufacturing systems. This topic will build upon existing theory
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candidate will explore programmable, AI-enhanced networking frameworks designed to meet the evolving demands of Industry 5.0. This includes developing novel architectures that combine Software-Defined
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individual processes to entire manufacturing systems. The PhD projects will all focus on factory and line level, where three research topics are defined: 1) Conceptual design principles and methods
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is internationally recognized and has a strong collaborative network within the development of advanced analytics. We offer a rewarding and challenging job in an international environment with
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revolutionize communication systems for the quantum age. As quantum technologies rapidly advance, CLASSIQUE focuses on a critical challenge: how to evolve classical communication networks to support both
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published in the literature, they are designed to naturally operate over bits, in order to maximize their performances in Software and Hardware implementations. At the current state of the art, the approach
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: perform novel research in the area of concept drift, IoT systems, digital twins, defining formal models, engineering respective software frameworks, scientifically testing and evaluating your approach
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analysis of secular and/or non-religious imagery in transnational Iranian digital culture; network analysis of how non-religious themes circulate in online spaces; digital ethnography and interviews with
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, allows for flexible sampling plans. Prof. Jelle Goeman co-developed the closed testing framework that gives flexibility for defining research questions in a data-dependent way. Thirdly, we add permutation