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, semiconductor manufacturers, and research institutions, has united to spearhead the development of specific aspects of 6G: Software antennas, AI-driven network software, compute stack, and groundbreaking 6G
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impact on a global scale. That is why we invite you to apply. Your application will receive fair consideration. Challenge. Change. Impact! Faculty Architecture & the Built Environment The Faculty
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iii) developing socially just heat adaptation strategies, that are context and conflict sensitive. This PhD position is situated at the Faculty of Architecture and the Built Environment, Department
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an understanding of complex systems with a vast amount of software requires effective architecture explanation frameworks, visualizations and identification of architectural refactoring opportunities in legacy
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highly motivated Ph.D. candidate. The background is preferably in electrical engineering, computer architecture, control, computational neuroscience, or similar fields. Unconventional backgrounds supported
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domains. Develop hybrid AI architectures combining symbolic domain knowledge, real-time data streams, and probabilistic inference. Design and evaluate decision support tools capable of interacting with
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electrical power, enabling smart sensors to operate without batteries. You will explore novel capacitor-based rectifier architectures, adaptive impedance-matching algorithms, and on-chip protection mechanisms
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Internet is undergoing a fundamental transformation from cloud architectures to a distributed continuum spanning edge, cloud, and space. This shift demands revolutionary approaches to how we orchestrate
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and optimize device architectures using finite element simulations. Fabricate prototypes using 3D printing, and cleanroom technologies. Implement test setups and assess devices performance through
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will explore advanced THz front-end architectures and evaluate their applicability in real-world scenarios. Key objectives include: Exploring use cases and front-end architectures in the 300–500 GHz