30 postdoctoral-biomedical-signal-processing positions at AGH University of Krakow in Poland
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16 May 2024 Job Information Organisation/Company AGH University of Krakow Department Faculty of Electrical Engineering, Automatics, Computer Science and Biomedical Engineering Research Field
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Description of tasks: As a postdoctoral researcher, you will play a crucial role in modelling rock mass deformation processes, analyzing land surface strain tensors, and studying environmental interactions in
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the scientific units, stakeholders, and industrial partners. Subject area: space technologies, biomedical engineering, space biology. Requirements Research FieldBiological sciencesEducation LevelPhD or equivalent
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/Simulink package, particularly in the areas of automatic code generation, signal processing, frequency analysis, integration of the Matlab/Simulink package with external control and measurement devices
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28 Mar 2024 Job Information Organisation/Company AGH University of Krakow Department Faculty of Electrical Engineering, Automatics, Computer Science and Biomedical Engineering, Department
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IDUB Project, Action 21. Creating conditions for independent research for people with a postdoctoral degree. Filling positions of “university professor with a post-doctoral degree” connected with
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the EU Research Framework Programme? Not funded by an EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description We are looking for a postdoctoral researcher
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Zgoda_rekrutacja_pracownik_EN_2.pdf English (305.42 KB - PDF) Download Additional Information Eligibility criteria scientific experience and/or practical experience related to the research area (we treat practical knowledge
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command of English, together with good academic writing and presentation skills. Selection process The committee evaluates candidates on a point scale from 0-100 points. Taking into account competences and
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excavation process. The Lunar surface consists of a layer of regolith, which can vary from a few meters to tens of meters. As such the regolith is the most accessible in-situ material to exploit on the Moon