THEORETICAL FOUNDATIONS OF SECURITY
Possible structure of standard operating procedure to ensure the operation of security systems
- 1 Institute of Metal Science Equipment and Technologies with Hydro- and Aerodynamics Centre “Acad. A Balevski” at the Bulgarian Academy of Sciences, Sofia, Bulgaria
Abstract
Standard operating procedures describe the precise steps required to carry out the organization’s security tasks in the operation of security systems and are important both for maintaining the level of competence of personnel performing a particular security job and for training new employees. Reducing errors in security-related activities and mission-critical processes is at the core of these procedures. Also, providing information on identified gaps, together with a survey of emerging technologies, is expected to help critical infrastructure operators seek future capabilities to create security and optimize the content of standard operating procedures.
Precisely, the presentation of a variant of standard operating procedures for the functioning of security systems is the basis of this paper.
Keywords
References
- Dimitrov D., “Developing the opportunities for building nuclear security”, Technics. Technologies. Education. Safety. 2021., Military sciences and national security., Proceedings 3, 3(13), Scientific Technical Union of Mechanical Engineering “Industry - 4.0”, 2021, ISSN:ISSN 2535-0315 (Print), 2535-0323 (Online), pp. 208÷211;
- Dimitrov D., “Examples of nuclear security measures for nuclear facilities”, Technics. Technologies. Education. Safety. 2021, Military sciences and national securityy, Proceedings 3, 3(13), Scientific Technical Union of Mechanical Engineering ”Industry - 4.0”, 2021, ISSN:ISSN 2535-0315 (Print), 2535-0323 (Online), pp. 212÷2215;
- Dimitrov D., “Basic regulations and associated administrative measures providing nuclear security”, Collection of reports from the Annual University Scientific Conference, 5, Vasil Levski National University Publishing Complex, 2021, ISSN: 2367÷7481, pp. 73÷80;
- Dimitrov D., “Some examples of a nuclear security contingency plans, designed for nuclear facilities”, Collection of reports from the Annual University Scientific Conference, 5, Vasil Levski National University Publishing Complex, 2021, ISSN:2367-7481, pp. 64÷72.;
- Nikolova V., S. Yaneva., “Individual means of head protection used in military and anti-terrorist operations in objects of the critical infrastructure”, Collection of reports from the Annual University Scientific Conference. V. Levski National University, ISSN 2367-7481, 2021, pp. 1177-1185;
- Boychev, Y., St. Asenov., “Sensors and Systems for the Detection of Improvised Explosive Devices”, Proceedings of the Annual University Scientific Conference. V. Levski National University, ISSN 2367-7481, 5, 2021, pp. 53÷63;
- Georgiev N.L, Kolarov A., Iliev I., “Audio recording system for underwater monitoring with fast notification for detected sound anomaly“, International Scientific Journal “Security&Future”, 4, 2, 2020, ISSN: 2603-2945 (2953), STUME, pp. 68÷71;
- Vencislav Pehlivanski, “Tests in the process of designing protection systems”, Monograph, IMSETHC-BAS, 2020, ISBN:978-619-188-359-2, pages 169;
- Tumbarska A., “Trends in the development of non-lethal technologies and protection systems”, Monograph, IMSTCHA-BAN, 2020, ISBN:978-619-7466-07-2, pages 402;
- Nikolay Gueorguiev, Aleksandar Kolarov, Iliev Ilian, “An approach for rapid transmission of critical information in underwater monitoring with an adaptively positioned anchor buoy”, Proceedings of the International Scientific Conference “Technique. Technologies. Education. Safety”, 3, National Technical University of Mechanical Engineering, 2020, ISSN:2535-0315, pp. 160÷163;
- Kiril Stoichev, Dimitar Dimitrov, Valeri Panevski, “Integrated security and protection of critical infrastructure”, ISBN 978-619-90310-6-3, 2016, pages. 340.