In a dynamic meeting at KEBA’s headquarters, professionals from KEBA, PROFACTOR (PRO), and KUL (Katholieke Universiteit Leuven) convened to discuss the pilot use case of KEBA and explore collaborative opportunities. The two-day agenda was packed with insightful discussions, presentations, and strategic planning.
The meeting kicked off with an open discussion on the KEBA use case, where each participant delved into their specific expertise and contributions. Notably, a plant tour at KEBA provided an immersive understanding of the robotic technologies in focus.
The meeting was driven by an insightful agenda, including use case visits, overviews of research interests, and discussions on
specific scenarios. The collaborative effort aimed to demonstrate functionality for various scenarios at different milestones, leading up to the finalization of demonstrations and scenarios by September 2025.
The second day shifted the focus to hands-on collaboration, with a workshop for training programming using KEBA’s AI controller. The exchange of experiences on gripping printed-circuit boards and investigating possibilities for interfacing KEBA controllers added a practical dimension to the discussions.
The commitment to innovation and knowledge exchange was evident as participants engaged in workshops and shared insights on programming techniques and interfacing challenges.
The meeting concluded with a clear roadmap for the next steps, including a bilateral strategic sessions which will delve into interface details, ensuring a cohesive and effective collaboration moving forward.
The gathering at KEBA not only fostered collaboration but also laid the groundwork for groundbreaking advancements in AI and robotics. As these institutions continue to work hand in hand, the future promises innovative solutions and advancements in technology that will shape industries and push the boundaries of what’s possible. Stay tuned for further updates on this exciting collaboration!
About the organizations
KEBA AG
Austria | Private Company
It is an automation expert represented by its own subsidiaries all over the world, from the USA to Europe and Asia. Close networking with its customers
and a high level of understanding for their industries and challenges have always been as important to KEBA as offering correspondingly industry-optimized solutions. KEBA will contribute to the initiative by providing a practical use case and demonstrating the applicability of these innovative approaches in a pilot line setting. This involves showcasing the real-world utility and ensuring that the developed systems and interfaces seamlessly integrate and perform effectively in a real-world manufacturing environment.
Profactor GMBH
Austria | Research Institution
PROFACTOR researches for the competitiveness of the European Industry. Their technological developments strive for efficiency and sustainability, and work to benefit society. They are pioneers of thinking production. PROFACTOR will spearhead the development of a vision system aimed at recognizing and deducing grasping parameters specifically tailored for PCB handling. Additionally, PROFACTOR will design programming interfaces that seamlessly integrate vision-based interfaces with interactive graphical user interfaces (GUIs) to facilitate the programming of robots.
Katholike Universiteit Leuven
Belgium | Education Institution
KU Leuven is dedicated to education and research in nearly all fields. Its fifteen
faculties offer classes and degree-granting academic programmes, whilst research activities are organised by departments and research groups. KUL will be responsible for implementing a kinesthetic teaching-based configuration system for robotic tasks. This involves leveraging kinesthetic teaching methods to configure and teach robots effectively. KUL will also implement a force feedback-based approach to enhance the manipulation capabilities of robots.
Teknopar
Turkiye | Private Company
TEKNOPAR provides customers with a wide range of services and end-to-end solutions where integrated applications of OT and IT have been supplied. TEK will be entrusted with the implementation of the manipulation plan for the robotic arm. This critical task involves translating the theoretical frameworks and concepts into a tangible, operational plan for the robotic arm’s manipulation.