The Development of a mathematical model for increasing the efficiency of emergency rescue operations in conditions of possible combat damage
Abstract
Purpose: development of a mathematical model for increasing the efficiency of emergency rescue operations in conditions of possible combat damage.
Design/Method/Approach: application of set theory.
Findings: for the first time, a mathematical model for increasing the efficiency of emergency rescue operations in conditions of possible combat damage was developed.
Theoretical implications: a well-founded possibility of obtaining patterns of rescuers’ activity not only directly during emergency rescue operations, but also during their training and training, in that case at specialized training (educational and training) complexes or with the help of simulation systems that are fully implemented on a computer.
Practical value of the research: the developed mathematical model should become the scientific basis of the methodology for reducing the time of emergency rescue work by rescuers of the State Emergency Service in conditions of possible combat damage.
Originality/Value of the research: the definition of the functional structure of the process of revealing the patterns of emergency and rescue operations in the conditions of possible combat damage in the form of a corresponding set of functions of revealing the patterns of the activities of rescuers provides an opportunity to analyze the functions of the system "rescuer - means of protection and provision of emergency and rescue operations - an emergency situation with the possibility of combat damage" regardless of the level of its complexity.
Research Limitations/Future Research: the need to conduct numerous experimental studies to confirm the reliability of the developed mathematical model and the effectiveness of the methodology for reducing the time of emergency and rescue operations in conditions of possible combat damage based on it.
Paper type: analytical.
Downloads
References
State Service of Ukraine for Emergency Situations. Available at: https://dsns.gov.ua/
Gibson, T.D. and Scott, N. (2019). Views from the Frontline and Frontline methodology: critical reflection on theory and practice. Disaster Prevention and Management, Vol. 28 No. 1, pp. 6-19. https://doi.org/10.1108/DPM-07-2018-0214
Garnier, E. (2019). Lessons learned from the past for a better resilience to contemporary risks. Disaster Prevention and Management, Vol. 28 No. 6, pp. 786-803. https://doi.org/10.1108/DPM-09-2019-0303
Olasunkanmi Habeeb Okunola (2019). Spatial analysis of disaster statistics in selected cities of Nigeria. International Journal of Emergency Management, 2019 Vol.15 No.4, pp.299 – 315. https://doi.org/10.1504/IJEM.2019.104195
Ralf Josef Johanna Beerens (2019). Does the means achieve an end? A document analysis providing an overview of emergency and crisis management evaluation practice in the Netherland. International Journal of Emergency Management, 2019 Vol.15 No.3, pp.221 – 254. https://doi.org/10.1504/IJEM.2019.102310
Kayvan Yousefi Mojir; Sofie Pilemalm (2016). Actor-centred emergency response systems: a framework for needs analysis and information systems development. International Journal of Emergency Management (IJEM), Vol. 12, No. 4, 2016, pp. 435 – 456. https://doi.org/10.1504/ IJEM.2016.079844
Willem Treurniet; Kees Boersma; Peter Groenewegen (2019). Configuring emergency response networks. International Journal of Emergency Management, 2019 Vol.15 No.4, pp.316 – 333. https://doi.org/10.1504/IJEM.2019.104200
David E. Verbitsky (2018). Quantitative analysis and assessment of intrinsic and extrinsic factors in human-in-the-loop incidents and prevalent early failures. International Journal of Human Factors Modelling and Simulation, 2018, 6:2-3, 228-248. https://doi.org/10.1504/IJHFMS.2018.093208
David Sjоberg and Miguel Inzunza (2022). Improving emergency preparedness with a live collaboration exercise model for first responders. International Journal of Emergency Management, 2022, 17:3-4, 195-216. https://doi.org/10.1504/IJEM.2022.125152
Marjan Malešič (2021). Institutional and emergent improvisation in response to disasters in Slovenia. International Journal of Emergency Management, 2021, 17:2, 138-153. https://doi.org/10.1504/IJEM.2021.122932
Akhilesh Barve, Ram Naresh Prasad, and Devendra K. Yadav (2020). Investigating causal relationship of disaster risk reduction activities in the Indian context. International Journal of Emergency Management, 2020, 16:1, 1-21. https://doi.org/10.1504/IJEM.2020.110105
Liane Okdinawati, Made Irma Dwiputranti, and Raden Adriyani Oktora (2019). The role and multi parties interaction and coordination mechanism on disaster management. International Journal of Emergency Management, 2019, 15:2, 187-204. https://doi.org/10.1504/IJEM.2019.099380
Strelets, V.М. (2004). Multifactorial assessment of fire and rescue operations at metro stations. Problemy pozhezhnoi bezpeky, рр. (208 -214). Kharkiv: NUTsZU [in Ukrainian].
Vasyliev, M.V., Strelets, V.М., Tryhub, V.V. (2013). Analysis of a multifactorial model of the functioning of the system “rescuer – means of protection and liquidation of an accident – emergency situation with the release of a hazardous chemical substance”. Problemy nadzvychainykh sytuatsii (рр. 22-33). Kharkiv: NUTsZU [in Ukrainian]. Available at: https://nuczu.edu.ua/sciencearchive/ProblemsOfEmergencies/vol18/Pns_2013_18_6.pdf
Soloviov, I. I., Strilets, V. M., Lovin, D. A. (2021). A multifactorial model of lifting an explosive object by a diver-sapper. Problemy nadzvychainykh sytuatsii (рр. 22-33). Kharkiv: NUTsZU [in Ukrainian]. https://doi.org/10.52363/2524-0226-2021-34-20
Lovin, D.A., Saveliev, I.V., Strilets, V.M. (2022). Formation of a set of goals for the simulated assessment of the system “rescuer – means of protection and provision of emergency and rescue work – emergency”. Komunalne hospodarstvo mist, 6(173), 148-153. https://doi.org/10.33042/2522-1809-2022-6-173-148-153
Strilets, V., Skorobohatko, T., Pruskyi, A., Malovyk, I. (2024). Justification of standards for assessing the level of readiness of rescuers to wear protective equipment complete with body armor. Nadzvychaini sytuatsii: poperedzhennia ta likvidatsiiа, 101-112. Cherkasy: ChIPB NUTsZU [in Ukrainian]. https://doi.org/10.31731/2524.2636.2024.8.1.101.112
Beliuchenko, D. Yu., Strilets, V. M., Lutsenko, T. O., Korchahin, P. O., Malovyk, I. V., Rebrov, O. V. (2023). Justification of standards for evaluating operational deployments in means of armor protection. Problemy nadzvychainykh sytuatsii, 2(38), 25-39. Kharkiv: NUTsZU [in Ukrainian]. https://doi.org/10.52363/2524-0226-2024-39-2
Skorobahatko, T.M., Pruskyi, A.V., Malovyk, I.V.., Prokofiev, M.I., Yakimenko, M.L., Sereda, D.V. (2024). Peculiarities of the activity of gas and smoke detectors in the conditions of a possible combat damage. Naukovyi visnyk: Tsyvilnyi zakhyst ta pozhezhna bezpeka, 1(17), 15-28. Kyiv: UNDICZ [in Ukrainian]. https://doi.org/10.33269/nvcz.2024.1.15-28
Stepanchuk, S. O., Strilets, V. M., Makarov, Ye. O., Strilets, V. V. (2023). Сomparative analysis of the regulations of humanitarian demining in a radiation-contaminated area. Problemy nadzvychainykh sytuatsii, 2(38), 208-223. https://doi.org/10.52363/2524-0226-2023-38-14 [in Ukrainian].
Multicultural Health and Safety Research. Final Report – Fire 20/20. – 2007. 14 p. Available at: http://fire2020.org/oldsite/MHSRPReportOnline/Frames/images/MHSRP_Report_FINALv2.3.3.pdf
Druzhynyn,V.V., Kontorov, D.S. (1976). Problems of systemology. Sov. Radyo: [in Russian].
Podykovskyi, V.V., Havrylov, V.M. (1975). Optimization based on consistently applied criteria. Sov. Radyo: [in Russian].
Kuzmyn, I.V. (1971). Assessing the effectiveness and optimization of automated control systems. Sov. Radyo: [in Russian].
Abstract views: 136 PDF Downloads: 78
Copyright (c) 2024 Viktor Strelets, Ighor Malovyk, Serhii Stepanchuk, Valery Strelec, Andrii Khyzhniak, Oleksander Valchenko
This work is licensed under a Creative Commons Attribution 4.0 International License.
The authors agree with the following conditions:
1. Authors retain copyright and grant the journal right of first publication (Download agreement) with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgment of the work's authorship and initial publication in this journal.
2. Authors have the right to complete individual additional agreements for the non-exclusive spreading of the journal’s published version of the work (for example, to post work in the electronic repository of the institution or to publish it as part of a monograph), with the reference to the first publication of the work in this journal.
3. Journal’s politics allows and encourages the placement on the Internet (for example, in the repositories of institutions, personal websites, SSRN, ResearchGate, MPRA, SSOAR, etc.) manuscript of the work by the authors, before and during the process of viewing it by this journal, because it can lead to a productive research discussion and positively affect the efficiency and dynamics of citing the published work (see The Effect of Open Access).
