The graduate will acquire synthesis-level knowledge in one or more areas of cybernetics and computer science: - systems theory and automatic control; - technical and software equipment for control systems; - algorithmization and programming; - network technologies and digitalisation. The graduate will gain specific knowledge in the supporting topics of technical education in mathematics and modelling of natural phenomena for understanding the basic principles of cyber-physical systems.
Graduates of the interdisciplinary study programme Digital Technologies will be able to address the latest challenges in the field of digitalization of services and industry. Graduates will acquire skills in the following areas, with an emphasis on their mutual integration and synergistic approach to problem solving: - digitisation, processing and transmission of information; - programming and software engineering; - applications of artificial intelligence; - design of automatic control methods and structures; - configurations of hardware components of information and control systems; - use of databases in information and control systems; - digital signal processing; - integration of communication, network and operational technologies; - data processing and visualization; - use and implementation of cyber-physical systems. Graduates will gain a comprehensive view of modern technologies and digital transformation in various sectors of the economy, industry and services in the sense of the concept of Industry 4.0 and 5.0.
Based on the acquisition of the above skills, the graduate will be ready to implement the activities: - analysis, design and implementation of sophisticated software systems; - design and integration of hardware systems; - ensuring mutual cooperation - interoperability - of software and hardware components of technological systems.
The acquired knowledge enables the graduate of the Digital Technologies study programme to continue at the second level of study in the study programmes of the group of fields of study computer science and cybernetics. With his/her universal knowledge and skills in the field of digitization, programming, software engineering, automation and control, he/she will find employment in industrial practice and also in the service sector. It will be applied in the analysis, design and implementation of software systems, in the analysis, diagnosis and programming of control systems, and in technical-economic and managerial processes. The graduate will be able to work as: - architect of digital technologies; - programmer; - systems analyst; - project manager; - consultant in various industries, including automation and digitalization of production and services.
