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with e-CALLISTO instruments or Software-Defined Radios (SDRs). · Familiarity with machine learning for astrophysical data analysis. · Knowledge of solar radio data pipelines and event classification
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of agentic AI systems, agile accelerated computing and next-generation Radio Access Networks (5G/6G), and who have the ability to lead innovative projects and shape new research directions. The successful
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, signal processing, radio technology and acoustics to satellite technology and autonomous systems. Knowledge of electronic systems is also vital for addressing important challenges in transport, energy, the
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- Control of Communication networks - Markovian Processes - Network Based Localisation / Radio based connectivity - Adaptive bandwidth - Mesh networking - Wireless Sensor Networks - Edge Computing - Time
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Aggregation with full treatment of Porosity, Mass, and Compaction PhD 3: Interaction of Light with Large Porous Dust Aggregates and the Link to Observations PhD 4/5: Unraveling the nature of fast radio bursts
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expertise in areas ranging from nanoelectronics, phototonics, signal processing, radio technology and acoustics to satellite technology and autonomous systems. Knowledge of electronic systems is also vital
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and validating architectures tolerant to faults and interference (jamming/spoofing) and robust to radiation-induced degradation, adaptive beamforming, and AI-based radio control. The role spans models
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Aggregates and the Link to Observations PhD 4/5: Unraveling the nature of fast radio bursts through a multifaceted look at their local environments PhD 6/7: Mapping neutron stars - inside and out (subject to
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groups. Professor Bram Nauta’s Integrated Circuit Design (ICD) group focuses on various aspects of analog and Radio Frequency (RF) Integrated Circuits (IC). The group's motto is “fundamental solutions