Master Program in Automation / Autonomous Systems in Moravian-Silesian Region Czech Republic

Top Master Programs in Automation / Autonomous Systems in Moravian-Silesian Region Czech Republic

Automation / Autonomous Systems

A masters is earned after students complete an undergraduate degree program. To obtain a masters, you usually need to complete 12 to 18 college courses that often involve completing comprehensive tests and/or a thesis.

Automation is the creation of a system using production equipment to efficiently manufacture goods. Students in the field of automation and autonomous systems often design and use technology to speed up or improve the creation of products.

Czech Republic has a well-established and research based university education. This has made learning ini Prague one of the respected curriculum's in Europe since it cultivates the spirit of creativity and innovation among students.

Best Masters in Automation / Autonomous Systems in Moravian-Silesian Region in Czech Republic

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Master in Automation and Computing in Industrial Technologies

Technical University of Ostrava
Campus Full time September 2019 Czech Republic Ostrava

The Branch is focused to the exploitation of computers and automation of technological processes above all in the metallurgical industry by application of knowledge in the field of theory of automated control, integrated computer systems, modern methods of control with the exploitation of artificial intelligence and applied informatics and control of technological aggregates and processes. [+]

Study Branch

Economics and Management of Industrial Systems

Branch Profile

The Branch is focused to the exploitation of computers and automation of technological processes above all in the metallurgical industry by application of knowledge in the field of theory of automated control, integrated computer systems, modern methods of control with the exploitation of artificial intelligence and applied informatics and control of technological aggregates and processes.

Key Learning Outcomes

Knowledge

advanced scientific methods of modeling, simulation and optimal control of dynamic systems, modern tools and techniques for designing and implementation of complex control systems based on programmable logic controllers, programming of information systems and modern control methods, detailed knowledge of industrial technologies, especially in the field of metallurgy and related technologies. ... [-]