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Field
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on the physical layer design of wireless communication systems and explore enabling technologies for 6G and beyond wireless networks. Applicants must hold a PhD degree in electrical/electronics engineering
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macroscopic response: Toughing mechanism using surface on involume spatial variations. Structural health monitoring (SHM) and smart structures for composite infrastructures: Wireless surface gauges and
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variations. Structural health monitoring (SHM) and smart structures for composite infrastructures: Wireless surface gauges and integrated sensors, SHM/NDT/Inline/Online. The Composites Lab develops and
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Associate with background on AI and machine learning for wireless networking and communications. The successful candidate will work under the direction of Dr. Marwan Krunz, Director of the Wireless
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, in an integrative and holistic fashion. For such work, there are key challenges relating to the radio channel and system design. Challenge 1: to design wireless communication systems, it is paramount
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mechanism using surface on in-volume spatial variations. Structural health monitoring (SHM) and smart structures for composite infrastructures: Wireless surface gauges and integrated sensors, SHM/NDT/Inline
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Future. Discover. Together. The Wireless Communications and Networks department of the Fraunhofer Heinrich Hertz Institute participates in the development of new technologies for the next generation
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next-generation wireless systems for both communication and sensing. Core Responsibilities: Collect and analyze data, including periodical/literature search and utilizing specialized skills in related
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, wireless networks, software defined networks (SDNs), and future Internet paradigms, underwater communications, satellite communications; Web security and systems security (e.g., remote attestation); User
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well as a freely moving arena. A significant component of the work focuses on training animals and collecting both behavioral and neural data using an array of tools with a focus on telemetry and wireless