Russian Federation
Russian Federation
UDK 614.84 Пожарная охрана. Опасность пожара. Пожары
Strategic planning is an important aspect of resourcing security services. The effectiveness of the fire service depends largely on the allocation of limited resources in fire services and the location of fire stations. This paper discusses the application of simulation modelling and AnyLogic software to investigate the functioning of a fire station. The model allows you to evaluate its effectiveness depending on the resource equipment, and evaluate the dynamics of changes in the readiness ratios of fire departments. The use of this model allows solving the problem of resource management and their optimisation.
simulation modelling, AnyLogic, management, strategic planning, resources, fire
1. Matveev A.V. Strategic planning of forces and means of the Russian Ministry of Emergency Situations in the Arctic zone // National Security and Strategic Planning. - 2017. - No. 4(20). - P. 32-42. - EDN NRZQFX.
2. Eslamzadeh S.M.K., Grilo A., Espadinha-Cruz P., Rodrigues J.P.C., Lopes J.P. A framework for fire departments' performance assessment: A systematic literature review // International Journal of Public Sector Management. - 2022. - V. 35. - No. 3. - P. 349-369. DOI: https://doi.org/10.1108/IJPSM-06-2021-0149.
3. Aleisa E. The fire station location problem: A literature survey // International journal of emergency management. - 2018. - V. 14. - No. 3. - P. 291-302. DOI: https://doi.org/10.1504/IJEM.2018.094239
4. Matveev A.V. Methods of modelling and forecasting. - St. Petersburg: St. Petersburg University of the State Fire Service of the Ministry of Emergency Situations of Russia, 2022. - 230 p. - ISBN 978-5-907116-73-3. - EDN IMLKWS.
5. Bartenev A.N. Analytical modelling of operational activity of the fire service // Innovations and Investments. - 2013. - No 6. - P. 150-153. - EDN TJXCFV.
6. Brushlinskii N.N., Sokolov S.V., Grigorieva M.P. About the organisation of the systems for ensuring the safety of cities // Technosphere safety technologies. - 2022. - No 3(97). - P. 84-99. - DOI:https://doi.org/10.25257/TTS.2022.3.97.84-99. - EDN ACHKKC.
7. Brushlinsky N.N., Sokolov S.V. Fundamentals of the theory of organization, functioning and management of emergency and rescue services: a monograph. - M.: Academy of the State Emergency Service of the Ministry of Emergency Situations of Russia 2018. - 92 p.
8. Shofeev T.G., Safarova S.Y., Matveev A.V. Model and algorithm of optimal resource allocation of subdivisions of the Ministry of Emergency Situations of Russia // Scientific and analytical journal "Bulletin of the St. Petersburg University of the State Fire Fighting Service of the Ministry of Emergency Situations of Russia". - 2023. - No 2. - P. 125-133. - EDN NBPXIL.
9. Chen M. et al. Emergency rescue capability evaluation on urban fire stations in China // Process Safety and Environmental Protection. - 2020. - V. 135. - P. 59-69. DOI: https://doi.org/10.1016/j.psep.2019.12.028.
10. Liu D. et al. Regional evaluation of fire apparatus requirements for petrol stations based on travelling times // Process Safety and Environmental Protection. - 2020. - V. 135. - P. 350-363. DOI: https://doi.org/10.1016/j.psep.2020.01.012
11. Komorovskiy V.S., Martinovich N.V., Yakimov V.A. Simulation model of the fire brigade departure based on the analysis of the log of the communication point of the fire and rescue unit // Natural and technogenic risks (physical, mathematical and applied aspects). - 2014. - No 4(12). - P. 5-9. - EDN WKVHHR.
12. Sokolov S.V., Portnov D.A., Popkov S.Y. Simulation model of the process of functioning of territorial volunteer fire brigades to assess the parameters of operational response // Technosphere safety technologies. - 2018. - No 6(82). - P. 22-31. - DOI:https://doi.org/10.25257/TTS.2018.6.82.22-31. - EDN YOQRIL.
13. Sokolov S.V., Brushlinsky N.N., Pham K.H. Development and adaptation of the simulation system of operational activities of fire departments to the conditions of Vietnam // Fires and emergencies: prevention, elimination. - 2021. - No 2. - P. 5-14. - DOI:https://doi.org/10.25257/FE.2021.2.5-14. - EDN HHZEPM.
14. Vodakhova V.A., Maximov A.V., Matveev A.V. Complex mathematical model of the process of management of forces and means of fire protection garrison // Problems of risk management in technosphere. - 2015. - No. 2(34). - P. 85-96. - EDN UGLUTN.
15. Baev D.V., Akishin A.A., Eremina A.V. Application of software modelling tools to determine the quantitative characteristics of sets of technical means used in rescue operations // Civil Security Technologies. - 2018. - V. 15, No 3(57). - P. 68-73. - DOI:https://doi.org/10.54234/CST.19968493.2018.15.3.57.12.68. - EDN XYGWTJ.
16. Krupkin A.A., Maximov A.V., Matveev A.V. Methodology for assessing the effectiveness of management of forces and means of the fire protection garrison // Scientific and analytical journal "Bulletin of St. Petersburg University of the State Fire Fighting Service of the Ministry of Emergency Situations of Russia". - 2015. - No 4. - P.30-34. - EDN VHNSPZ.
17. GOST R 53247-2009. Fire equipment. Fire trucks. Classification, types and designations. National standard of the Russian Federation: official publication: approved and put into effect by Order of the Federal Agency for Technical Regulation and Metrology dated February 18, 2009 N 18-st:. - M.: Standartinform, 2017. -10 p.
