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- Technical University of Denmark
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- Vrije Universiteit Amsterdam (VU); Published today
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Field
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to characterise the properties of radio antennas as used in modern radio interferometers (e. g., MeerKAT, LOFAR, SKA). The goal is to establish accurate models for antenna responses and describe their uncertainties
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to investigate the feasibility of original applications within a VIRC, as for instance characterization of antennas (efficiency, radiation pattern) and radar-cross section measurements, over-the-air tests
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Antenna Design: Developing innovative antenna systems compatible with metal detector coils, optimized for tasks such as minimum-metal landmine detection and deep object detection. Low Power, Compact
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the DFG Priority Programme “Molecular Machine Learning” and embedded in the research project “Multi-fidelity, active learning strategies for exciton transfer in cryptophyte antenna complexes”. The PhD
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development of your scientific career within the growing field of antennas and metasurfaces for specifically health applications, the present project is the right for you. In a collaborative initiative by DTU
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components for real-time signal transmission. The design will include: Implantable antenna design: Developing a dual band antenna for efficient wireless communication and power transmission simultaneously
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of shaping, steering, and optimising wave propagation far beyond what is possible with conventional antenna arrays. This PhD project contributes to the ENACT project on environment-aware communication modes
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communication and sensor systems. Design, model, and experimentally characterize sustainable antennas and wireless system components for Internet of Things (IoT) and industrial applications. Explore approaches
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at the intersection of 6G wireless communications, antenna, design, AI-enhanced beamforming and advanced air mobility (AAM). As aviation evolves towards high-agility platforms such as urban air taxis, drones, and
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Group, https://www.chalmers.se/en/departments/e2/research/communications-antennas-and-optical-networks/communication-systems/ , employing around 45 people, including 8 faculty and 25 PhD students. During