Corpus ID: 219558966

An Ontological Metamodel for Cyber-Physical System Safety, Security, and Resilience Coengineering

@article{Bakirtzis2020AnOM,
  title={An Ontological Metamodel for Cyber-Physical System Safety, Security, and Resilience Coengineering},
  author={Georgios Bakirtzis and Tim Sherburne and Stephen Adams and Barry M. Horowitz and P. Beling and C. Fleming},
  journal={ArXiv},
  year={2020},
  volume={abs/2006.05304}
}
  • Georgios Bakirtzis, Tim Sherburne, +3 authors C. Fleming
  • Published 2020
  • Computer Science, Engineering
  • ArXiv
  • System complexity has become ubiquitous in the design, assessment, and implementation of practical and useful cyber-physical systems. This increased complexity is impacting the management of models necessary for designing cyber-physical systems that are able to take into account a number of ``-ilities'', such that they are safe and secure and ultimately resilient to disruption of service. We propose an ontological metamodel for system design that augments an already existing industry metamodel… CONTINUE READING

    Figures and Tables from this paper

    References

    SHOWING 1-10 OF 69 REFERENCES
    Data-Driven Vulnerability Exploration for Design Phase System Analysis
    • 5
    • PDF
    A Preliminary Design-Phase Security Methodology for Cyber-Physical Systems
    • 7
    • PDF
    A systems approach for eliciting mission-centric security requirements
    • 15
    • PDF
    Safety, Security, Now Sustainability: The Nonfunctional Requirement for the 21st Century
    • 95
    • PDF
    Fundamental Challenges of Cyber-Physical Systems Security Modeling
    • 2
    • PDF
    A System-Aware Cyber Security architecture
    • 38
    • PDF
    Contract-based modeling and verification of timed safety requirements within SysML
    • 9
    • PDF
    Profiles in a strict metamodeling framework
    • 62
    • PDF
    Systems thinking for safety and security
    • 75
    • PDF
    A Design Pattern for Executable DSML
    • 3