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, biophysics, biochemistry, systems and cell biology. In MEDI unit, genome wide methods, computational approaches and experimental models are developed and utilized to understand the mechanisms of diseases, e.g
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of value creation, the need for sustainable development and social change. Our five research groups specialise in the following research areas: Project and Service Business Profitability Management
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of Generative AI and Software Engineering, contributing to both theoretical understanding and practical development of AI-enabled software systems. The positions are located in the Computing Sciences Unit within
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of damage tolerant amorphous oxide coatings, such as amorphous Al2O3 and Ga2O3, tailored for industries that contribute to future products and sustainable development, such as solid oxide fuels cells, Li-ion
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of Information Technology. We investigate and develop methods, theories, and technologies for digitalized data and the information centric society. Strong mathematical, algorithmic, and computational thinking and
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Control Strategies for Autonomous Driving (HUMINAC). The project focuses on developing novel, human intention–aware control strategies at the intersection of machine learning, reinforcement learning, and
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. The application areas are diverse, ranging from quantum devices to medical technologies. Overall, modeling and simulation tools developed in Computational Physics have increasing role in fundamental sciences, and
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into a strong research hub at the Tampere University, Finland, with activities ranging from nanofabrication, nonlinear and theoretical optics, metamaterials, and laser developments. Tampere University