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Cyber Security of Automated Control Systems
Major: Automation and Computer-integrated Technologies
Code of subject: 6.151.06.E.121
Credits: 3.00
Department: Automation and Computer-Integrated Technologies
Lecturer: Roman Vitalii Ivanovych, assistant professor, candidate of technical sciences
Semester: 8 семестр
Mode of study: денна
Learning outcomes: 1. Know the basics of modern technologies and data exchange protocols in automation systems, information technologies for integrating automation systems into local and global information networks based on the principles of information security of such systems.
2. Be able to develop systems of automation of technological processes, built-in automation systems based on microcontrollers and industrial microprocessor controllers, network technologies and computer-integrated complexes, taking into account the principles of cybersecurity of such systems.
3. Be able to integrate automation systems into local and global information networks based on the principles of information security of such systems.
Required prior and related subjects: 1. Systems and network data transmission
2. Design of automation systems
3. Multilevel control systems of technological processes
Summary of the subject: Introduction to discipline. Components of automated control systems (AСS). Architecture and ties in ACS. IT security. Threats and attacks on ACS. Vulnerability of ACS. Standards, management and normative documents. Approaches IEC 62443. Functional security and cyber security. Methods of risk assessment. Methods and tools to ensure the safety of ACS. Implementation of approaches to cybersecurity in ACS
Assessment methods and criteria: - execution and oral protection of laboratory work (30%)
- written component of academic work (50%)
- oral component of academic work (20%)
Recommended books: 1. Flaus Jean-Marie. Cybersecurity of Industrial Systems. Wiley-ISTE, 2019. – 420 p.
2. Anderson R.J. Security Engineering: A Guide to Building Dependable Distributed Systems (2nd ed.). Wiley, 2010. – 1081 p.
3. IEC TS 62443 – Industrial communication networks – Network and system security.
4. Lehto M., Neittaanmaki P. Cyber Security. Analytics, Technology and Automation. Springer, 2015. – 268 p.
5. Knapp D. Industrial Network Security. Securing Critical Infrastructure Networks for Smart Grid, SCADA, and Other Industrial Control Systems. Elsevier, 2011. – 360 p.
Cyber Security of Automated Control Systems
Major: Automation and Computer-integrated Technologies
Code of subject: 6.151.04.E.092
Credits: 3.00
Department: Automation and Computer-Integrated Technologies
Lecturer: Roman Vitalii Ivanovych, assistant professor, candidate of technical sciences
Semester: 8 семестр
Mode of study: денна
Learning outcomes: 1. Know the basics of modern technologies and data exchange protocols in automation systems, information technologies for integrating automation systems into local and global information networks based on the principles of information security of such systems.
2. Be able to develop systems of automation of technological processes, built-in automation systems based on microcontrollers and industrial microprocessor controllers, network technologies and computer-integrated complexes, taking into account the principles of cybersecurity of such systems.
3. Be able to integrate automation systems into local and global information networks based on the principles of information security of such systems.
Required prior and related subjects: 1. Systems and network data transmission
2. Design of automation systems
3. Multilevel control systems of technological processes
Summary of the subject: Introduction to discipline. Components of automated control systems (AСS). Architecture and ties in ACS. IT security. Threats and attacks on ACK. Vulnerability of ACS. Standards, management and normative documents. Approaches IEC 62443. Functional security and cyber security. Methods of risk assessment. Methods and tools to ensure the safety of ACS. Implementation of approaches to cybersecurity in ACS
Assessment methods and criteria: - execution and oral protection of laboratory work (30%)
- written component of academic work (50%)
- oral component of academic work (20%)
Recommended books: 1. Flaus Jean-Marie. Cybersecurity of Industrial Systems. Wiley-ISTE, 2019. – 420 p.
2. Anderson R.J. Security Engineering: A Guide to Building Dependable Distributed Systems (2nd ed.). Wiley, 2010. – 1081 p.
3. IEC TS 62443 – Industrial communication networks – Network and system security.
4. Lehto M., Neittaanmaki P. Cyber Security. Analytics, Technology and Automation. Springer, 2015. – 268 p.
5. Knapp D. Industrial Network Security. Securing Critical Infrastructure Networks for Smart Grid, SCADA, and Other Industrial Control Systems. Elsevier, 2011. – 360 p.