Graduates of the Robotics and Cybernetics degree program will receive a quality engineering education based on knowledge of automated process control, cybernetic modeling, and robotic system design. The graduate's professional profile includes new directions of information technology in the field of control systems, robotics and artificial intelligence. The graduate has knowledge in the field of: Systems identification; analysis of static and dynamic nonlinear systems; control synthesis methods for nonlinear dynamic systems; design and operation of mechatronic devices; kinematics and dynamics, localization, navigation and mapping using mobile robots (also flying); sensor information processing and fusion algorithms; artificial intelligence, specifically knowledge-based systems, bio-inspired computing methods and artificial neural networks; basic architectures of deep neural networks, principles and algorithms of deep learning and reinforcement learning; the operation of visual systems with different image processing methods; methods for modelling biomedical processes; embedded systems with single-chip ARM microcomputers; adaptive and robust control algorithms; modelling of power systems; Translated with www.DeepL.com/Translator (free version)
A graduate of the Robotics and Cybernetics study programme is able to: implement the estimation of system model parameters and critically assess the achieved identification results; design the control of a mechatronic system even in the presence of non-linear phenomena, elastic members and under the influence of various disturbance quantities and variability of parameters; design the control of multi-axis systems; verify the stability and design the control of a nonlinear system; work with different sensor equipment of mobile robots; design the control structure of a mobile robotic system; work with simulators and with real mobile robotic systems (including flying ones); design the user interface between robot and human; apply AI approaches to practical problems in modelling and control of systems and in optimisation in the application domains of robotics, cybernetics, logistics, but also economics and other areas of practice; design structure and object detectors using deep neural networks; Design complex solutions using appropriate combinations of image processing methods for specific industrial and robotic applications; Apply knowledge of systems theory and control theory to selected biological systems; Design software structures for embedded systems; to bring new original knowledge in the process of realization of the master thesis; work in a team and be prepared for team work on larger scale projects; create documentation necessary for the project solution;
The graduate of the Robotics and Cybernetics study programme will acquire the competences: Analyse dynamic properties and design control of nonlinear systems; select the appropriate control structure of a mechatronic system and components for its design; control mobile robots (including flying robots) and solve their basic tasks (localization, navigation and mapping); design custom solutions for visual systems; design neural models for classification, recognition and detection of objects in images; design embedded systems based on 32bit ARM MCUs; Design adaptive and robust control of real dynamic SISO and MIMO systems with parametric uncertainty and external disturbances; Design and modify the HMI interface of robotic systems; Design a voltage, power and system stabilizer controller for synchronous generator; creatively apply the acquired theoretical and practical knowledge, which he/she has acquired by preparing the diploma thesis and studying the study programme; participate in research in the field of robotics and cybernetics; organise project management, including on larger-scale projects; Graduates of the Robotics and Cybernetics study programme will find employment in the dominant processes of industry as well as in the research, development, design and operation of cybernetic systems in all areas of social life, but especially in the design and operation of systems in techno-economic and managerial conditions. The graduate is prepared to meet current and future challenges in the advancement of robotic systems, cybernetic methods for solving complex tasks, as well as the challenges of improving the quality of life. The professional profile of a graduate in cybernetics is based on a systems approach to problem solving. The subjects of the field capture the development and new directions of information technology in the fields of control systems, robotics, artificial intelligence and cybernetics.
Graduates of the Robotics and Cybernetics study programme will find employment in the dominant processes of industry as well as in the research, development, design and operation of cybernetic systems in all areas of society, but especially in the design and operation of systems in techno-economic and managerial conditions. The graduate is prepared to meet current and future challenges in the advancement of robotic systems, cybernetic methods for solving complex tasks, as well as the challenges of improving the quality of life. https://uplatnenie.sk/?degree=V%C5%A0&vs=702000000&faculty=702030000&field=2647T07&year=2019
PLC programmer, Electrical engineer, Electrical engineer of automated production, Electrical engineer of engineering support, Mechatronics engineer, Information system administrator, Technician in the field of establishment and operation of ICT services, Application programmer, Database administrator, Programmer of industrial robots, Programmer of CNC machines, Process specialist in mechanical engineering, Mechanical automation specialist, Mechanical engineering specialist technologist, Mechanical maintenance specialist, Production planning specialist, Controller (manager) in electrical engineering, Electrical engineering specialist in research and development, ICT Project Manager, Information Technology Solutions Manager, ICT Process Specialist, R&D Manager in Information Technology and Telecommunications, Systems Programmer, IT Operations Manager, Mechanical Engineering Specialist in R&D, R&D Manager in Information Technology and Telecommunications, R&D Manager in Information Technology and Telecommunications, Engineering Production Manager, Mechanical Engineering Specialist in R&D, Mechanical Engineering Specialist in Research and Development
Ing. Maroš Mudrák, Director of Factory Automation at MATADOR Group Ing. Martin Foltin, PhD., country manager Slovakia HUMUSOFT s.r.o.
The Robotics and Cybernetics study programme is evaluated by employers as a balanced combination of theoretical and practical knowledge that prepares students universally for practice, where they can apply themselves in a wide range of technical expertise in the field of automation, cybernetics and robotics. They have the opportunity to gain professional profiling according to their chosen subjects and during the elaboration of their diploma thesis. The quality assessment is continuously provided by the sponsor of the SP in cooperation with the members of the SP Council.Siemens, s.r.o., Matador Automation, s.r.o., Humusoft, s.r.o. and Airvolute, s.r.o. gave a positive opinion on the compliance of the acquired qualification with the requirements of the sector.
