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training, and interactions among autonomous entities can lead to vulnerabilities. These concerns are amplified in decentralized AI and multi-agent systems, when multiple parties (e.g., human or agent) might
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Description The Research Training Group (in German: Graduiertenkolleg, GRK) RTG2670 “Beyond Amphiphilicity: Self-Organization of Soft Matter Via Multiple Noncovalent Interactions” in the second
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Mathematical and computational methods to design and analyse biological systems Engineering biology to address current challenges in sustainability Creating new technology for the interrogation of cells
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geometry can be reconstructed mathematically (this is called inverse scattering). This requires both sophisticated mathematical models and efficiently implemented algorithms. In the case of wafer metrology
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Via Multiple Noncovalent Interactions” in the second funding phase at the Martin Luther University Halle-Wittenberg will start with a highly interdisciplinary and ambitious research program in November
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: The effect of multiple robots in human-robot interaction Playful engagement with Politics in the time of misinformation Actor-Controlled Interactive Sound Design in Live Theatre Performance Interactive Sound
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application will receive fair consideration. Challenge. Change. Impact! Faculty of Electrical Engineering, Mathematics and Computer Science The Faculty of Electrical Engineering, Mathematics and Computer
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and continuum surgical robots for applications in endovascular interventions, bronchoscopy, and endoscopy. The candidate will work across multiple projects that share a common foundation in sensing and
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Max Planck Institute for the Physics of Complex Systems • | Dresden, Sachsen | Germany | about 9 hours ago
condensed matter physics. We are looking for highly talented and motivated students from all around the world to join our affiliated research groups. Multiple PhD positions will be awarded on a competitive
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. The candidate will work across multiple projects that share a common foundation in sensing and control of soft robotic systems. The research will focus on developing simulation and digital twin frameworks