Cristin-prosjekt-ID: 297122
Sist endret: 13. januar 2015, 15:13

Cristin-prosjekt-ID: 297122
Sist endret: 13. januar 2015, 15:13
Prosjekt

Security engineering

prosjektleder

Tore Møller Jonassen
ved Institutt for informasjonsteknologi ved OsloMet - storbyuniversitetet

prosjekteier / koordinerende forskningsansvarlig enhet

  • Institutt for informasjonsteknologi ved OsloMet - storbyuniversitetet

Tidsramme

Avsluttet
Start: 1. august 2009 Slutt: 31. januar 2015

Beskrivelse Beskrivelse

Tittel

Security engineering

Vitenskapelig sammendrag

Currently, there is no unified security planning software to minimize loss of human life and economize insurance costs via optimal evacuation and rescue measures before, during and after natural, manmade or industrial catastrophes. These range from the Lisbon earthquake of 1755, Vesuvius eruptions and Chernobyl disaster to the Madrid Railway and London Underground bombings and the Kauhajoki school shooting in Finland. Marked distinctions exist between combating safety and security problems. Respectively, those pertain to regularly occurring local fatalities as opposed to infrequent large-scale mishaps. Extreme value statistics historically used to model floods, droughts and tsunamis, will be used in security engineering. Security measures will be over and above safety actions typically decided from averages of bell shaped curves that are widely used for seasonal rain fall and wind gust. This project will deliver basic software modules of security management as well as early warning systems for the entire EU despite varying safety strategies between countries. General concepts of an international team, formed after 9/11, are enhanced for EU needs, e.g. traffic control between airports and hospitals after simulated Airbus 380 evacuations. Technically, the paradigm shift from safety to security engineering is achieved by synthesizing the qualitative knowledge of experts with safety statutes and real-time sensor data within a deliverable software. Specifically, mathematical concepts of fuzzy logic, Bayesian updating and game theory will be implemented to process signals from bio- and nano- technology-based sensors by massivelyprocessing formal specification, which rewrites regulation to be understandable and manipulatable by computer. Finally, broadcast of security measures aids the emergency management authorities whose observations continuously improve the system performance.

Metode

Dynamisk systemteori og computer algebra.

prosjektdeltakere

prosjektleder

Tore Møller Jonassen

  • Tilknyttet:
    Prosjektleder
    ved Institutt for informasjonsteknologi ved OsloMet - storbyuniversitetet
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