Cascading Failures: Dynamic Model for CIP Purposes: Case of Random Independent Failures Following Poisson Stochastic Process

Mohamed Eid, Terhi Kling, Tuula Hakkarainen, Yohan Barbarin, Amelie Grangeat, Dominique Serafin

    Research output: Chapter in Book/Report/Conference proceedingConference article in proceedingsScientificpeer-review

    Abstract

    Cascading failures are a challenging issue in Critical Infrastructure Protection (CIP) and related modelling, simulation and analysis (MS&A) activities. Critical Infrastructures (CIs) are complex systems of ever increasing complexity. A single failure may be propagated and amplified resulting in serious disruptions of some societal vital services. A dynamic model describing cascading random failures that occur following Poisson Stochastic Process (PSP) is proposed. The proposed model considers only independent failures. Additional R&D effort is necessary before extending the model to dependent failures.
    Original languageEnglish
    Title of host publicationCritical Information Infrastructures Security
    PublisherSpringer
    Pages326-331
    ISBN (Electronic)978-3-319-31664-2
    ISBN (Print)978-3-319-31663-5
    DOIs
    Publication statusPublished - 25 Mar 2016
    MoE publication typeA4 Article in a conference publication
    Event9th International Conference on Critical Information Infrastructures Security - Limassol, Cyprus
    Duration: 13 Oct 201415 Oct 2014
    Conference number: 9

    Publication series

    SeriesLecture Notes in Computer Science
    Volume8985
    ISSN0302-9743

    Conference

    Conference9th International Conference on Critical Information Infrastructures Security
    Abbreviated titleCRITIS 2014
    CountryCyprus
    CityLimassol
    Period13/10/1415/10/14

    Fingerprint

    Critical infrastructures
    Random processes
    Dynamic models
    Large scale systems
    Computer simulation

    Keywords

    • cascade
    • CI
    • CIP
    • domino
    • effect
    • model
    • MS&A
    • REDICT

    Cite this

    Eid, M., Kling, T., Hakkarainen, T., Barbarin, Y., Grangeat, A., & Serafin, D. (2016). Cascading Failures: Dynamic Model for CIP Purposes: Case of Random Independent Failures Following Poisson Stochastic Process. In Critical Information Infrastructures Security (pp. 326-331). Springer. Lecture Notes in Computer Science, Vol.. 8985 https://doi.org/10.1007/978-3-319-31664-2_33
    Eid, Mohamed ; Kling, Terhi ; Hakkarainen, Tuula ; Barbarin, Yohan ; Grangeat, Amelie ; Serafin, Dominique. / Cascading Failures: Dynamic Model for CIP Purposes : Case of Random Independent Failures Following Poisson Stochastic Process. Critical Information Infrastructures Security. Springer, 2016. pp. 326-331 (Lecture Notes in Computer Science, Vol. 8985).
    @inproceedings{fab27698be504488b3329d69000be6f3,
    title = "Cascading Failures: Dynamic Model for CIP Purposes: Case of Random Independent Failures Following Poisson Stochastic Process",
    abstract = "Cascading failures are a challenging issue in Critical Infrastructure Protection (CIP) and related modelling, simulation and analysis (MS&A) activities. Critical Infrastructures (CIs) are complex systems of ever increasing complexity. A single failure may be propagated and amplified resulting in serious disruptions of some societal vital services. A dynamic model describing cascading random failures that occur following Poisson Stochastic Process (PSP) is proposed. The proposed model considers only independent failures. Additional R&D effort is necessary before extending the model to dependent failures.",
    keywords = "cascade, CI, CIP, domino, effect, model, MS&A, REDICT",
    author = "Mohamed Eid and Terhi Kling and Tuula Hakkarainen and Yohan Barbarin and Amelie Grangeat and Dominique Serafin",
    year = "2016",
    month = "3",
    day = "25",
    doi = "10.1007/978-3-319-31664-2_33",
    language = "English",
    isbn = "978-3-319-31663-5",
    series = "Lecture Notes in Computer Science",
    publisher = "Springer",
    pages = "326--331",
    booktitle = "Critical Information Infrastructures Security",
    address = "Germany",

    }

    Eid, M, Kling, T, Hakkarainen, T, Barbarin, Y, Grangeat, A & Serafin, D 2016, Cascading Failures: Dynamic Model for CIP Purposes: Case of Random Independent Failures Following Poisson Stochastic Process. in Critical Information Infrastructures Security. Springer, Lecture Notes in Computer Science, vol. 8985, pp. 326-331, 9th International Conference on Critical Information Infrastructures Security, Limassol, Cyprus, 13/10/14. https://doi.org/10.1007/978-3-319-31664-2_33

    Cascading Failures: Dynamic Model for CIP Purposes : Case of Random Independent Failures Following Poisson Stochastic Process. / Eid, Mohamed; Kling, Terhi; Hakkarainen, Tuula; Barbarin, Yohan; Grangeat, Amelie; Serafin, Dominique.

    Critical Information Infrastructures Security. Springer, 2016. p. 326-331 (Lecture Notes in Computer Science, Vol. 8985).

    Research output: Chapter in Book/Report/Conference proceedingConference article in proceedingsScientificpeer-review

    TY - GEN

    T1 - Cascading Failures: Dynamic Model for CIP Purposes

    T2 - Case of Random Independent Failures Following Poisson Stochastic Process

    AU - Eid, Mohamed

    AU - Kling, Terhi

    AU - Hakkarainen, Tuula

    AU - Barbarin, Yohan

    AU - Grangeat, Amelie

    AU - Serafin, Dominique

    PY - 2016/3/25

    Y1 - 2016/3/25

    N2 - Cascading failures are a challenging issue in Critical Infrastructure Protection (CIP) and related modelling, simulation and analysis (MS&A) activities. Critical Infrastructures (CIs) are complex systems of ever increasing complexity. A single failure may be propagated and amplified resulting in serious disruptions of some societal vital services. A dynamic model describing cascading random failures that occur following Poisson Stochastic Process (PSP) is proposed. The proposed model considers only independent failures. Additional R&D effort is necessary before extending the model to dependent failures.

    AB - Cascading failures are a challenging issue in Critical Infrastructure Protection (CIP) and related modelling, simulation and analysis (MS&A) activities. Critical Infrastructures (CIs) are complex systems of ever increasing complexity. A single failure may be propagated and amplified resulting in serious disruptions of some societal vital services. A dynamic model describing cascading random failures that occur following Poisson Stochastic Process (PSP) is proposed. The proposed model considers only independent failures. Additional R&D effort is necessary before extending the model to dependent failures.

    KW - cascade

    KW - CI

    KW - CIP

    KW - domino

    KW - effect

    KW - model

    KW - MS&A

    KW - REDICT

    U2 - 10.1007/978-3-319-31664-2_33

    DO - 10.1007/978-3-319-31664-2_33

    M3 - Conference article in proceedings

    SN - 978-3-319-31663-5

    T3 - Lecture Notes in Computer Science

    SP - 326

    EP - 331

    BT - Critical Information Infrastructures Security

    PB - Springer

    ER -

    Eid M, Kling T, Hakkarainen T, Barbarin Y, Grangeat A, Serafin D. Cascading Failures: Dynamic Model for CIP Purposes: Case of Random Independent Failures Following Poisson Stochastic Process. In Critical Information Infrastructures Security. Springer. 2016. p. 326-331. (Lecture Notes in Computer Science, Vol. 8985). https://doi.org/10.1007/978-3-319-31664-2_33