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with physics-based models Developing robust and adaptive methods for real-time parameter and state estimation Implementing machine learning approaches that preserve physical constraints while handling
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Max Planck Institute for Radio Astronomy, Bonn | Bonn, Nordrhein Westfalen | Germany | about 1 hour ago
standard software used for FRB or pulsar searches and analysis Practical experience in applying Machine Learning methods to data Experience with computer clusters and HPC Willingness to supervise Masters/PhD
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-driven modeling. - Familiarity with vortex methods, URANS/LES, or hybrid aerodynamic modeling. - Interest in the integration of modeling into estimation and control frameworks. Offer - Full-time
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annual leave, plus 9 buildings closed days for all full time staff. Use our total rewards calculator: https://www.hw.ac.uk/about/work/total-rewards-calculator.htm to see the value of benefits provided by
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design or experimental methods and machine learning. The term of appointment is based on rank. Positions at the postdoctoral rank are for one year with the possibility of renewal pending satisfactory
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their gesturing or vocalization is manipulated. Tasks will include contributing to project theory and methods development on multimodal communication in song performance; using experimental methods that involve
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to be addressed. Matrix completion methods have proved to be efficient when reconstructing a non fully observed data. These methods can be applied to complete or predict links in a network. However
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, including task-based and resting state functional MRI, T1 and T2-weighted structural MRI, and diffusion MRI. The post-doc will parcellate the hippocampus and cerebellum using surface-based methods and the
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to the project or projects weekly; 2) identify and/or develop hypotheses and methods for advancing the research effort; 3) design and carry out computer experiments; 4) attend the meetings of the PIs research
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/RFSoC boards, generating synthetic training datasets and extracting robust features for SIGINT and spectrum‑monitoring pipelines Develop and integrate TDOA/FDOA‑based geolocation methods into RF