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--- aira:start [2025/10/22 10:00] – [Schedule Autumn 2025] mzk
+++ aira:start [2025/10/28 22:33] (current) – [2025-10-23] mzk
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 ===== Schedule Autumn 2025 =====
+  * **[RESEARCH TRACK] 2025.10.30**: Peter van Dam,  Associate Professor @ Jagiellonian University, [[#section20251030|Inverse problem in electrocardiography: modeling the ECG.]]
+    * Meeting link:[[https://teams.microsoft.com/meet/38693113399487?p=QVsurHuK9sLM4PH7ek|MS Teams]]
+    * Recording:  TDA
+    * Presentation slides:  TDA
   * **[RESEARCH TRACK] 2025.10.23**: Marek Pędziwiatr,  PhD @ Jagiellonian University, [[#section20251023|Eye tracking as a bridge between psychology and computer science.]]
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 ===== Presentation details =====
+==== 2025-10-30 ====
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+{{ :aira:peter-vanDam-foto.jpg?200| }}
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+**Speaker**: Peter van Dam,  Associate Professor @ Jagiellonian University
+**Title**: Inverse problem in electrocardiography: modeling the ECG.
+**Abstract**:
+The electrocardiogram (ECG) measured on the body surface shows beat-by-beat the electrical functioning of the heart. This ECG consists of a number of electrical time signals that are caused by the currents produced by the myocardial cells. These ECG signals require clinical interpretation, which in the In current clinical practice is close to an art. Modeling the ECG, i.e. have a model of the heart that simulates the electrical processes of the myocardium and calculates the ECG signals on the body surface, can help to understand these waveforms in a cause -effect relationship. This is the major subject of my current and past research, which I will introduce during this talk.
+**Biogram**:
+Dr hab. Peter van Dam is a scientist and lecturer specializing in cardiac modeling, electrocardiographic diagnostics, and the development of innovative educational and clinical tools based on heart signal analysis and 3D imaging. In 2025, he obtained his postdoctoral degree (habilitation) in medical sciences at the Jagiellonian University Medical College, presenting a scientific achievement entitled “Localization of PVC (Premature Ventricular Contraction): Evaluation and Validation of Inverse ECG Modeling.” He is also a laureate of the prestigious NCN OPUS grant, focused on inverse modeling of repolarization heterogeneity to assess arrhythmogenic risk.
+His academic path began with studies in electronic engineering at MBO-College Gouda (1981–1985) and Hogeschool Utrecht (1985–1990). He also studied philosophy (Rijksuniversiteit Utrecht, 1991–1992) and physics (Universität Oldenburg, 1992–1993). Between 1997–2004, he earned a master’s degree in biology and physics at the Open University in Heerlen, where his thesis involved developing a simulation of the P-wave in ECG and IEGM (2004). In 2010, he defended his PhD at Radboud University Nijmegen under the supervision of Prof. Adriaan van Oosterom, presenting the dissertation “The shortest path to cardiac activation.”
+Peter van Dam’s professional experience spans both academia and the medical industry. He began his career in 1997 as a senior scientist at Vitatron/Medtronic. Since 2009, he has been affiliated with Peacs BV (Chief Scientific Officer). In 2020, he became CEO of ECG-Excellence, focusing on developing innovative diagnostic and educational tools based on heart signal analysis and 3D modeling.
+In academia, he has worked at Radboud University (2011–2017, validating ECGI methods in an animal model), at UCLA (2013–2016, developing arrhythmia mapping methods), and currently conducts research and teaching at UMC Utrecht, UT Twente, and Hochschule Luzern Technik & Architektur. Since 2023, he has also collaborated with the Jagiellonian University Medical College, Center for Digital Medicine and Robotics, where he serves as Visiting Professor at the Department of Radiology. Since 2024, he has also been a specialist at the Laboratory of Functional and Virtual Medical 3D Imaging (3D-FM) at the University Hospital in Kraków.
+His research focuses on: inverse ECG modeling and arrhythmia source localization; the use of 3D imaging and simulation in cardiology; developing modern educational tools for students and physicians; integrating engineering and clinical expertise in the diagnosis of cardiac rhythm disorders.
+Dr hab. Peter van Dam sees great potential in interdisciplinary collaboration between universities and university hospitals worldwide. His goal is to create and implement groundbreaking 3D ECG technologies that not only enable more precise diagnostics but also open new possibilities for more effective treatment of cardiac arrhythmias. By combining clinical and engineering perspectives, he strives to set new standards in modern cardiology.
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+==== 2025-10-23 ====
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+{{ :aira:marek-pedziwiatr-foto.jpg?200| }}
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+**Speaker**: Marek Pędziwiatr,  PhD @ Jagiellonian University
+**Title**: Eye tracking as a bridge between psychology and computer science.
+**Abstract**:
+We move our eyes around three times per second. While we are rarely aware of these movements, they play a crucial role in shaping how we see the world: they determine what visual input reaches the brain and is processed by it (e.g., memorized). Understanding the process of (involuntarily) deciding where to look is one of the key problems in modern experimental psychology, and it has substantial practical significance for domains such as automated content-aware image cropping. Studies aimed at solving this problem typically rely on recording eye movements of individuals viewing visual materials (e.g. images) and relating these recordings to the outputs of image-processing algorithms that attempt to predict which image regions would attract human gaze. In my talk, I will provide an overview of this field and use examples from my work to showcase the potential of combining methods from experimental psychology and computer science.
+**Biogram**:
+Marek Pędziwiatr is a vision scientist interested in how we make sense of what we see. In particular, he studies human eye movements during picture viewing. He completed a PhD in psychology at Cardiff University (UK). Afterwards, Marek worked as a postdoctoral researcher at Queen Mary University of London. Then, he returned to Krakow, where, before moving to the UK, he obtained undergraduate degrees in Control Engineering and Robotics (BSc and MSc) and Cognitive Science (BSc), and joined the Centre for Brain Research at Jagiellonian University.
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