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| aira:start [2026/05/13 09:25] – [Schedule Spring 2026] mzk | aira:start [2026/06/21 08:05] (current) – [Schedule Spring 2026] mtm | ||
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| ===== Schedule Spring 2026 ===== | ===== Schedule Spring 2026 ===== | ||
| + | * **[RESEARCH TRACK] 2026.06.18**: | ||
| + | * Meeting link: [[https:// | ||
| + | * Recording: | ||
| + | * Presentation slides: | ||
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| + | * **[PHD TRACK] 2026.06.11**: | ||
| + | * Meeting link: [[https:// | ||
| + | * Recording: | ||
| + | * Presentation slides: | ||
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| + | * **[RESEARCH TRACK] 2026.05.28**: | ||
| + | * Meeting link: | ||
| + | * Recording: | ||
| + | * Presentation slides: {{: | ||
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| + | * **[RESEARCH TRACK] 2026.05.21**: | ||
| + | * Meeting link: | ||
| + | * Recording: | ||
| + | * Presentation slides: | ||
| * **[RESEARCH TRACK] 2026.05.14**: | * **[RESEARCH TRACK] 2026.05.14**: | ||
| * Meeting link: | * Meeting link: | ||
| - | * Recording: | + | * Recording: |
| - | * Presentation slides: | + | * Presentation slides: |
| * **[RESEARCH TRACK] 2026.04.16**: | * **[RESEARCH TRACK] 2026.04.16**: | ||
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| + | ==== 2026-06-18 ==== | ||
| + | <WRAP column 15%> | ||
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| + | **Speaker**: | ||
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| + | **Title**: Exploring the use of artificial intelligence in digital cultural heritage research in european research centres. | ||
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| + | **Abstract**: | ||
| + | This presentation provides an overview of the current stage of research investigating the use of artificial intelligence (AI) in digital cultural heritage research within european research centres and cultural heritage institutions, | ||
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| + | **Biogram**: | ||
| + | Elżbieta Sroka, PhD, certified UX designer, assistant professor at the Jagiellonian University in Krakow, Poland, Faculty of Physics, Astronomy and Applied Computer Science, at the Department of Human-Centred Artificial Intelligence and also Senior Specialist at Łukasiewicz Research Network – Institute of Artificial Intelligence and Cybersecurity in Katowice, Poland. | ||
| + | She obtained her doctoral degree in 2018 from the University of Silesia in Katowice, based on a dissertation focused on the digitization of social life documents in Polish digital libraries. Her research interests include research users information behavior, user experience (UX) design, and digital humanities, as well as applications of artificial intelligence—particularly in the context of human–AI interaction, | ||
| + | </ | ||
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| + | ==== 2026-06-11 ==== | ||
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| + | </ | ||
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| + | **Speaker**: | ||
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| + | **Title**: Transparent and Adaptive AI for Human-Guided Decision Support. | ||
| + | |||
| + | **Abstract**: | ||
| + | This talk presents Sabri' | ||
| + | Together these works reveal a common thread and a shared limitation: current explainable AI systems are built around one-shot outputs. They tell users why a decision was made, but offer no principled response when users push back. The second part of the talk examines this open problem: how AI systems should handle disagreement, | ||
| + | |||
| + | **Biogram**: | ||
| + | Sabri Manai is a PhD candidate in Technical Computer Science at Jagiellonian University in Kraków, where his research focuses on explainable AI and pattern detection in multimodal data. His work investigates how human feedback and domain knowledge can improve the transparency and reliability of AI systems. | ||
| + | He holds a Master’s degree in Software Systems Engineering from the Universitat Politècnica de València and a Bachelor’s degree in Computer Science from the South Mediterranean University in Tunis. Previously, he worked on AI-driven urban analytics within the Valencia Smart City project at Idrica and contributed to mobile development and cloud integration at Peaksource. | ||
| + | </ | ||
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| + | |||
| + | ==== 2026-05-28 ==== | ||
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| + | **Speaker**: | ||
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| + | **Title**: From Graphs to Graph Neural Networks: Foundations and Applications in Healthcare | ||
| + | |||
| + | **Abstract**: | ||
| + | In this talk, I will introduce the foundations of graph theory and graph neural networks, starting from intuitive examples of real-world graphs such as social networks, molecules, road networks, and biomedical interaction networks. I will explain why graph-structured data challenges standard machine learning assumptions, | ||
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| + | **Biogram**: | ||
| + | Soheila Molaei is a senior researcher in the Department of Engineering Science at the University of Oxford. Her research focuses on artificial intelligence and machine learning, particularly graph neural networks, federated learning, neuro-symbolic AI, and learning from multimodal and heterogeneous data, with applications in complex real-world and healthcare domains. | ||
| + | </ | ||
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| + | ==== 2026-05-21 ==== | ||
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| + | **Speaker**: | ||
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| + | **Title**: Computational Neuroscience at Sano (Centre for Computational Medicine): Current Research and a Spotlight on “A Tract Density Biomarker for Survival Prediction in Glioblastoma” | ||
| + | |||
| + | Abstract: | ||
| + | Computational neuroscience provides powerful tools to better understand brain structure and function, and to translate this knowledge into clinically relevant biomarkers for neurological disease. In this seminar, I will briefly survey ongoing projects in brain modelling, advanced neuroimaging analysis, and machine learning for neurological and psychiatric disorders, with a particular emphasis on how these methods bridge basic science and clinical practice. The second part of the talk will spotlight the development of a tract density–based biomarker aimed at predicting survival in patients with glioblastoma, | ||
| + | |||
| + | Biogram: | ||
| + | Jan Argasiński, | ||
| + | </ | ||
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| + | ==== 2026-05-14 ==== | ||
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| + | </ | ||
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| + | **Speaker**: | ||
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| + | **Title**: Innovative data processing methods on field programmable gate arrays (FPGAs) | ||
| + | |||
| + | **Abstract**: | ||
| + | Significant computational capabilities of modern FPGAs, combined with high-level methodologies for developing their configuration, | ||
| + | |||
| + | **Biogram**: | ||
| + | Expert in the field of Field Programmable Gate Arrays (FPGA) technology with many years of experience acquired while working in international research projects. Ph.D. in technical sciences in the discipline of computer science obtained for the design and implementation of the data acquisition system for the HADES experiment detector system, which has also been used in dozens of other applications. Popularizer of FPGA technology by organizing conferences and training program in this field on a national scale. Since 2018 conducts research on the use of FPGAs in subjects related to processing massive amount of streamlined data such as in High Performance Computing, low and fixed latency networking. Technical coordinator of the Data Acquisition System in the PANDA experiment. | ||
| + | </ | ||
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| ==== 2026-04-16 ==== | ==== 2026-04-16 ==== | ||