Date: 09 September 2026, 14:00 – 15:00 (CET) Price: Free (for eligible participants)
Format: AI:AT Webinar, ONLINE (Zoom) Target audience: Industry, public admin, academia
Language: English Organizer: AI:AT

How can robots see, decide, and act? This 3-part webinar series shows how AI connects visual perception, world understanding, planning, and control - revealing how robotic systems move from raw sensor data to intelligent action in real environments.   

This webinar series offers an accessible introduction to AI-based robotic vision and control, with a strong focus on how perception, planning, and action are integrated into intelligent robotic systems. Designed for a broad audience, the series will break down complex ideas to accessible explanations and examples, without requiring a deep technical background.

This opening session of the webinar series offers an accessible introduction to AI-based robotic vision and control, setting the stage for the sessions to follow. 

Starting from the historical evolution and motivation of computer vision, it revisits fundamental questions: how machines recognize, reconstruct, and segment meaningful real-world entities, and what core complexities remain central to the field today. Building on this foundation, the session introduces how modern AI systems transform raw sensor data into structured representations of objects, scenes, and spatial relationships. A central theme is the transition from perception to action - examining how visual observations are enriched with semantic meaning, geometric structure, and functional properties such as affordances, enabling robots not only to see their environment but to interpret it in terms of what actions are possible.

This session lays the foundation for the follow-up webinars Learning, Perception, and Robotic Decision Intelligence and From Planning to Action in Robotic Systems.

Target audience

This webinar is open and free of charge for all participants from academia, industry, and public administration from EU and/or EuroHPC JU member countries.

Entry level & prerequisites

Basic - no previous experience required.

Agenda

  • Overview (15 mins): Introduction to the hands-on course, learning objectives, and the role of integrated AI systems in robotic perception, planning, and control.
  • Historical motivation of computer vision (20 mins): A short look at the evolution of computer vision and the key questions that remain central today: what are the main complexities when addressing vision tasks.
  • From images to robotic planning (20 mins): Transition from perception to structured representations: 3D understanding, object affordances, and how vision enables task-relevant abstraction.

Speakers

Dr. Csaba Beleznai (AIT Austrian Institute of Technology)           
Dr. Csaba Beleznai is a Senior Scientist at the AIT Austrian Institute of Technology, bringing over 26 years of expertise in Computer Vision, Machine Learning, and Deep Learning. His research focuses on solving complex 3D object pose estimation tasks essential for robotic navigation and object manipulation, as well as developing advanced vision-based perception models for broader robotic applications. Dr. Beleznai holds an M.S. from the Technical University of Ilmenau (Germany) and a Ph.D. in Physics from Claude Bernard University, Lyon (France). Committed to education, he regularly lectures at various summer schools and universities, including FH Wiener Neustadt and FH Technikum Wien. You can connect with him on Linkedin via: https://www.linkedin.com/in/csaba-beleznai-78b3821/

Dr. Patrik Zips (AIT Austrian Institute of Technology)           
Dr. Patrik Zips is a Senior Scientist at the AIT Austrian Institute of Technology, working in the Center for Vision, Automation and Control. He has over 15 years of experience in robotic task and motion planning, with a strong focus on developing algorithms that are robust and feasible in real-world settings involving highly nonlinear dynamics. His research bridges theory and practice, with many of his methods deployed and validated in AIT’s large-scale robotics lab, an experimental environment for autonomous utility machines operating in challenging outdoor conditions. Dr. Zips holds a PhD in Automation and a Master’s degree in Electrical Engineering from TU Wien. LinkedIn: https://www.linkedin.com/in/patrik-zips-b95523286/  

Language

English

Date, time, and location

09.09.2026, 10:00 – 11:00 (CET), LIVE ONLINE WEBINAR (Zoom)

Registration

Registration is required, the link to the registration form can be found on the top of this page in the menu on the left. Please register with your official institutional email address to prove your affiliation.

You will get the Zoom link in the automatic confirmation by email (subject starting with "[Indico] Registration"), please check your Spam/Junk folders). We will also send 1–2 reminders before the webinar.

Please do not hesitate to contact us at training@ai-at.eu if you have any questions.


Organizers

This webinar is organized by AI Factory Austria AI:AT.

Acknowledgements

AI Factory Austria AI:AT has received funding from the European High-Performance Computing Joint Undertaking (JU) under grant agreement No 101253078. The JU receives support from the Horizon Europe Programm of the European Union and Austria (BMIMI / FFG).

 


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