Expo
Budapest, Hungary
Innovation on Display – Discover the Future of Robotics
The Expo will bring together key players in robotics from Hungary and abroad, including academic research groups, tech companies, and start-ups. This vibrant exhibition space will offer live demonstrations, hands-on experiences, and interactive exhibits designed for both professionals and the general public.
What to Expect
- Demonstrations of cutting-edge robotics technology
- Interactive displays for all ages and levels of expertise
- Opportunities to network with companies, researchers, and engineers
- Showcases from both industry leaders and emerging innovators
Whether you are a tech enthusiast, a student, or an industry expert, the Expo is your chance to engage directly with the people and technologies shaping the future of robotics.
Rexroth Kft
Bosch Rexroth, a global leader in industrial automation, together with Kassow Robots, a pioneer in agile 7-axis collaborative robotics, delivers innovative automation solutions for flexible and efficient production. At the event, we will showcase a live demo featuring a Kassow cobot with a dispensing head, ideal for precise application tasks in dynamic manufacturing environments.
ELTE Multiszenzor-Drón-Képfúzió kutatócsoport
ELTE's Multisensor Drone Fusion research team uses high-tech drones and advanced sensors to study environmental and surface changes. The drones use laser scanners, thermal imaging and multispectral sensors to collect high-precision data, which are processed by machine learning and artificial intelligence. The information obtained contributes to the early detection of critical situations and supports environmental protection, disaster management and infrastructure monitoring. At our stand, you can learn about state-of-the-art drones, sensors and spectacular results that demonstrate the practical use of spatial data.
Rondó Kft
Even the most advanced robotic solutions are vulnerable to electrostatic discharge (ESD) and static charges. Rondó's industrial ionisation and ESD protection technologies ensure that precision systems operate fault-free, stable and long-term - in the lab, on the production line or even in an automated environment.
Contact:
9027 Győr, Kőrisfa utca 16. rondo@rondo.hu
MyActionCam
A MyActionCam Magyarország Kft. idén ünnepli fennállásának 17. évfordulóját. A vállalat útja egy panellakás kis szobájából indult, ahol alapítónk, Damak Ferenc víziója formát öltött. Kezdetben akció- és sportkamerák forgalmazására fókuszáltunk – innen ered nevünk is. Az évek során azonban új területek felé nyitottunk, és mára a professzionális dróntechnológia egyik vezető hazai forgalmazója és integrátora lettünk.
A szakmai fókuszt erősíti a vállalat B2B üzletága, a Drone2B, amely ipari drónmegoldásokra, speciális payloadokra és automatizált rendszerekre specializálódott.
Az INTROB FAIR rendezvényen olyan iparágspecifikus drónrendszereket és megoldásokat mutatunk be, amelyek valós problémákra kínálnak hatékony választ: terepmodellezés, autonóm megfigyelés, adatvizualizáció, veszélyhelyzet-kezelés – mindez a jelen és a jövő technológiájával.
- DJI Matrice 400 drón Zenmuse H30T hőkamera rendszerrel – nagy hatótávolságú, éjjellátó és multiszenzoros képességekkel
- DJI Dock 3 – új generációs autonóm drónkikötő valós idejű adattovábbítással és távvezérelt bevethetőséggel
- DJI FlyCart 30 – nagy teherbírású szállítódrón logisztikai célokra
- DJI Inspire 3 – professzionális filmes és precíziós repülésekhez
- CZI S1 és V1 payloadok – keresési, biztonságtechnikai és kommunikációs feladatokra optimalizálva
- Share UAV oblique és SLAM kamerarendszerek – nagy pontosságú térképezésre és beltéri 3D modellezésre
Enjoy Robotics
Az Enjoy Robotics-szal elhozzuk a vendéglátás jövőjét.
Teljes körű szolgáltatást nyújtunk a HoReCa szektor számára, a hazai vendéglátás igényeire szabva.
Pincér robotunk éttermi környezetben ellátja a komi feladatokat, köszönti a vendégeket, kezeli az asztalfoglalásokat és felveszi a rendeléseket. Mindezt az AI-alapú beszélgető modul és a saját navigációs modul segítségével.
Óbudai Egyetem
1. The demonstration presents a system based on digital twins that automatically generates image data for teaching object-detecting neural networks. The real side consists of an industrial robotic arm, camera, and inspection scene, while the virtual space is used to synchronously label images using Blender software. A spectacular feature of the demo is the movement of the robotic arm as the camera captures images - the same process is happening in parallel in the virtual environment. The resulting labelled images provide an insight into how the real and digital worlds are linked during data generation.
2. The Unitree Go2 is a highly agile and stable quadruped robot that, thanks to the latest technological advances, is able to overcome various obstacles and maintain its balance without any jolts. Unitree Go2 is most often used for security patrols, logistics, infrastructure monitoring, research, and education. The robot is an ideal tool to showcase future robotics solutions and will impress the audience with its unique motion capabilities. Speaker: Panna Zsoldos, PhD in Computer Engineering, Research and Development, Antal Bejczy iRobotics Centre, University of Óbuda
3. Increasing the efficiency of industrial robots using mixed reality tools. The aim of the research is to develop a hardware and software system for industrial environments that supports the operation and programming of industrial robots using mixed reality. This will contribute to increasing the efficiency and at the same time the sustainability of industrial robots.Presented by Szilágyi Zoltán doctoral student and assistant lecturer of Óbuda University.
About the team:
- Antal Bejczy iRobotics Centre: the Antal Bejczy iRobotics Centre (BARK) is a unit within the University of Óbuda's Centre for Research and Innovation, working on the integration of robotics development and education, and coordinating the robotics activities of the university faculties and research centres. We support the use of the results of robotics research in education, especially in PhD training, with modern infrastructure, and we actively participate in the cooperation of the Hungarian robotics industry, in the organisation of professional programmes and in international research, mainly involving students and postdocs.
- The Alba Regia Faculty of Technology (AMK) of Óbuda University in Székesfehérvár is a multifunctional technical faculty offering bachelor's degrees in mechanical engineering, computer engineering, electrical engineering, technical management and surveying, and a master's degree in mechatronics engineering, with a strong emphasis on dual training and practical cooperation with industrial partners
Links:
Óbudai Egyetem Bejczy Antal iRobottechnikai Központ homepage:https://irob.uni-obuda.hu/
Óbudai Egyetem Alba Regia Műszaki Kar homepage: https://amk.uni-obuda.hu/
Budapest University of Technology and Economics - Department of Mechatronics, Optics and Mechanical Engineering
The telemanipulator device featured in the exhibition demonstrates effective collaboration between humans and robots. This custom-designed, 3D-printed telemanipulator is a scaled-down replica of the robotic arm. Thanks to sensors integrated into its joints, the robotic arm can be controlled with high precision and in real time—even remotely via a network connection. The robot's motion is managed using the ROS framework and the MoveIt environment.
Zsanett Bertók received her M.Sc. degree in Mechatronics Engineering in 2025 from the Budapest University of Technology and Economics (BME), where she is currently pursuing her Ph.D degree. Her research focuses on motion control of electric drives and nonlinear control.
Vanda Nagy received her B.Sc. degree in Mechatronics Engineering in 2025 from the Budapest University of Technology and Economics (BME) and is currently enrolled in the M.Sc. program in Biomedical Engineering. Her interests include human–robot interaction and control technology.
Dr. Csaba Budai received his B.Sc. degree in Mechatronics Engineering in 2011, his M.Sc. degree in Mechanical Engineering in 2013, and his Ph.D. in Mechanical Engineering in 2017, all from the Budapest University of Technology and Economics (BME). He has been with the Department of Mechatronics, Optics and Mechanical Engineering Informatics at BME since 2016, and has served as an Associate Professor since 2025. His research interests include the dynamics and stability of mechatronic systems with motion control and haptics applications.