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-the-end software protection, i.e., techniques such as software obfuscation that aim to prevent reverse engineering of software and tampering with it. Both offensive research and defensive research is
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implementation (Month 22–24), · Hitachi Energy: Benchmarking of magnetic components (Month 30–32), · Danfoss: Experimental model verification (Month 34–35). IMPORTANT: Strong knowledge in
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software engineering, computer science, data science, bioengineering, bioinformatics, engineering, physics or related Experience in either machine learning or computational biology. Interest in both
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(e.g., using Matlab) and in real-life using Software Defined Radios (SDRs). You will write detailed technical evaluation reports on the developed solutions, implementation, and experiments, leading
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with or experience in any of the following topics is valuable: optics (lab work, design), mechanics (e.g. CAD software), software (e.g. Python scripting), astronomical/spectroscopic data reduction and
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plus RF and microwave engineering. Hands-on experience with software defined radios (SDRs) like USRPs is considered a plus Statistical signal processing Resource allocation and optimization
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computing needs, and enabling rapid responses to potential issues in remote locations. The aim is to develop robust and scalable software solutions suitable for practical industrial deployment on a large
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Institute) Besides the project leaders, the Dynamigs team includes several senior and postdoc researchers. As a part of this project, you will conduct quantitative research on demographic behaviour
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requirements and report results Implement and open-source proof-of-concept software tools Collaborate with other researchers of the IPBG ATLAS program For further information, please contact and Your profile
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devices that incorporate strategic markings, to improve the spatial resolution of 5D ED experiments (which involve both 4D-STEM and 3D ED). You will code the necessary tracking software for your developed