Industry 4.0 Research and Innovation Centre of Excellence
Department in charge
Progressive and well scheduled building of bridges between the physical and digital worlds, a special readiness for innovative adaptation, answers to challenges in a prompter way than any time before, including bold steps to be made concerning...
Our department develops a 2-camera vision system within the MTA-SZTAKI ISAAC internal project, which system can detect and track a small UAV in real-time on the Sindy aircraft. The system can also identify dangerous approaches. Many algorithmic...
The VISION project is a European-Japanese collaborative research project. To enhance air transport safety, the main objective of the project is to validate smarter technologies for aircraft guidance, navigation and control (GN&C) by including...
SCOPIA: Development of software supported clinical devices based on endoscope technology The project SCOPIA launched in October 2015 has got the overall aim to strengthen research and development in the field of healthcare industry, to make use of...
New Sensor Concept for Intra-Frame Speed Measurement
Department in charge
The project is aiming at the research of a dual-pixel APS sensor architecture, for vision based speed measurement applications. The sensor integrates two imaging element on pixel level, and is designed to generate two separate images: the primary...
Safety and Economic Platform for Partially Automated Commercial vehicles
Department in charge
In the frame of the project , which was sponsored by the National Research, Development and Innovation Fund, the research consortium -- led by Institute for Computer Science and Control (MTA SZTAKI) -- carried out research and development tasks, such...
MTA SZTAKI initiated and leads an R&D consortium aiming to develop automated control functionality for commercial vehicles. The R&D objectives include the reduction of fuel consumption and of the emission of air pollutants, as well as the improvement...
A closer coupling of wing aeroelasticity and flight control systems in the design process opens new opportunities to explore previously unviable designs. Common methods and tools across the disciplines also provide a way to rapidly adapt existing...
The sense and avoid (S&A) capability is crucial for the unmanned aerial vehicles (UAVs). It is due to the necessity of integrating civilian and governmental UAVs into the common airspace. In a S&A scenario, the ego-UAV is the observer, which...
Execute the research and development program, that was defined by the key regional members of manufacturing-machining-automotive-mechatronics branches. With national and global players, realization of future oriented, strategically important...
