THEORETICAL FOUNDATIONS OF SECURITY
Possible approach for developing a model of intelligent security system applicable in its design in the quasar center of competence
- 1 Bulgarian Academy of Sciences, Institute of Metal Science Equipment and Technologies with Hydro- and Aaerodynamics Centre “Acad. A Balevski”, Sofia, Bulgaria
Through the development and operation of intelligent security systems, with a focus on critical infrastructure, it is expected to improve the security of the population in our country. This process finds real dimensions in the goals and tasks of the centers of competence, which are in the process of construction during the current period. A key element contributing to the proper functioning of intelligent security systems is its design, in accordance with the specifics of the security environment.
Precisely the synergy of the efforts of the scientific, educational and industrial communities for the development of contemporary models of security systems, structured within the functional scope of the QUASAR competence center, is the basis of this article.
- Dimitar Dimitrov, “Comperatve evaluation of modeling and simulation techniques for interdependent critical infrastructure”, International Scientific Journal “Security & Future”, Issue 4/2019, Scientific Technical Union of Mechanical Engineering, 2019, ISSN:ISSN: 2535-0668 (print), 2535- 082X (online), p.p. 128-132;
- Dimitar Dimitrov, “Comparative assessment of techniques for modeling and simulation of interconnected critical infrastructure", Proceedings of the annual university conference, “Vasil Levski” National Military University Publishing complex, ISSN 1314-1937, p. 231 -241, 2020;
- Ventsislav Ivanov Pehlivanski, “Tests in the process of designing protection systems”, Sofia 2020, IMSTCH-BAS; ISBN: 978-619-188-359-2;
- International Atomic Energy Agency, Nuclear Security Recommendations on Physical Protection of Nuclear Material and Nuclear Facilities, IAEA Nuclear Security Series No. 13, Vienna (2011);
- COUNCIL DIRECTIVE 2008/114/EC of 8 December 2008 on the identification and designation of European critical infrastructures and the assessment of the need to improve their protection;
- A. Tumbarska, “Trends in the development of non-lethal technologies and protection systems”, Monograph. IMSTCH-BAS, 2020, ISBN: 978-619-7466-07-2, 402 ps.;
- Nikolay Gueorguiev, Yavor Boichev, Konstantina Belotelova, Ivan Ivanov, “Frequency characteristics of seismic piezoelectric sensors under one-dimensional mechanical action”, Journal of Theoretical and Applied Mechanics, Sofia, Vol.49 (2019), ISSN: 0861-6663 (Print), 1314-8710 (Online) pp. 130-141. Bulgarian Academy of sciences, National committee of theoretical and applied mechanics, 50, 2, 2020, ISSN:0861-6663 (Print), 1314- 8710 (Online), 130-141. SJR (Scopus):0.28;
- Georgiev, N.L. “Analysis of one class of specialized sensors for protection of objects from critical infrastructures”, 2015, ISBN:978-619-90310-4-9, 170, monograph;
- Georgiev, N.L, “Summary description of the state of sensors by object protection systems”, “Collection of scientific papers - Days of non-destructive control”, 2015, ISSN: 1310-3946, p.p. 118-120.