Original title in Czech: Rizikové inženýrstvíÚSIAbbreviation: MRzIAcad. year: 2017/2018Level of course unit: Master's
Title awarded: Ing.
Level of qualification: Master's (2nd cycle)
Qualification awarded: Ing. in the field "Risk Engineering"
Specific admission requirements
Condition for admitting is obtaining a bachelor's degree.
Profile of the programme
The common objective of the study programme is to educate graduates of Risk Engineering with the knowledge and skills necessary for an identification, analysis and reduction, respectively, the removal of risk in engineering areas, which are the subjects of the education on the individual components of the VUT, which will contribute to ensuring the content and practical study programme. It is also adapted to the content of study.
Key learning outcomes
Graduates of the study programme:
- will be capable to detect and analyze the sources of risk and risk factors that may lead to the emergence of serious phenomena,
- will be able to assess the risks in terms of the probability of the threat, and due to the possible formation of the spectrum of crisis phenomena,
- in relation to the legal environment and the responsibility will be ready to propose measures to reduce the risks and resources on creating conditions which will reduce the likelihood of developing a threat,
- will be ready to participate actively in the preparation of strategies and procedures to deal with crisis situations resulting from engineering objects and interact with folders for crisis management and planning.
To the extent required for the above technical activities will acquire knowledge and skills in the area of economics, leadership and management, law and legislation in the area of national security, crisis management and protection in emergencies.
Access to further studies
Graduates can continue to study doctoral study programme.
Examination regulations, assessment and grading
diploma thesis, final state examination
Mode of study
ECTS departmental co-ordinator
Branches (course structure diagrams with ECTS credits)
|Year||Branch||Course structure diagram with credits|
|1||REZ (...)||Risk Management for Electrotechnical Equipment||60||0||60|
|1||RSZ (...)||Risk Management for Mechanical Equipment||60||0||60|
|1||RFI (...)||Risk Management in Companies and Institutions||60||0||60|
|1||RSK (...)||Risk Management in Construction Engineering||60||0||60|
|1||RIS (...)||Risk Management in Information Systems||60||0||60|
|1||RCH (...)||Risk Management of Chemical Technologies||60||0||60|
|2||RFI (...)||Risk Management in Companies and Institutions||52||8||60|
|2||RSK (...)||Risk Management in Construction Engineering||52||8||60|
|2||RIS (...)||Risk Management in Information Systems||46||14||60|
|2||RCH (...)||Risk Management of Chemical Technologies||54||6||60|