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computational complexity theory—though often with new, fascinating twists—but also involves work on devising clever algorithms that can exploit the power of such paradigms in practice. Our most recent new line
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satisfiability (SAT) solving, Gröbner basis computations, integer linear programming, and constraint programming. This leads to classical questions in computational complexity theory—though often with new
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-assembly structures over a range of length scales. The PhD student will be part of a collaborative network of students and researchers at the divisions of Biochemistry and Structural Biology (http
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northern Sweden create enormous opportunities and complex challenges. For Umeå University, conducting research about – and in the middle of – a society in transition is key. We also take pride in delivering
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processing algorithms. Job description The PhD research will focus on developing algorithms for radar networks aiming at robust radar networks. To achieve the robustness, radar systems in a network have
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on developing algorithms for radar networks aiming at robust radar networks. To achieve the robustness, radar systems in a network have capability to mitigate interference and they can coordinate in time
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will be part of a collaborative network of students and researchers at the divisions of Biochemistry and Structural Biology (http://www.cmps.lu.se/biostruct/) and Physical Chemistry (http
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, and model explainability. The research will explore how combining multimodal data - such as PET/CT scans, radiology text reports, and clinical information - can help AI systems better understand complex
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cognitive processes. This includes designing interactive interfaces for processing complex, often large-scale data, within operational contexts—such as identifying risks, adjusting operational strategies
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communication . The division offers ample opportunities for collaboration and networking, both within Chalmers and through our strong national and international research networks. As a doctoral student, you will