A mathematical formulation of the problem in preventing emergencies in the area of the Joint Forces Operation

Authors

DOI:

https://doi.org/10.5281/zenodo.4122043

Keywords:

emergency, civil defense, striking impact, potentially dangerous object, high-risk object, Joint Forces Operation

Abstract

The article considers Donbass as a transformed military natural-technogenic geosystem, formed as a result of an armed conflict in a largely urbanized industrial-urban agglomeration.

The Joint Forces operation has seen a significant increase in natural and man-made threats associated with potentially dangerous objects in the area affected by artillery systems. Emergencies at such facilities can result in significant human casualties and significant environmental and economic damage.

This raises the question of increasing the efficiency of the organizational and technical system of rescue operations in the civil defense system.

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Author Biography

Valentin Romanyuk , The National Defence University of Ukraine named after Ivan Cherniakhovskyi

PhD student

References

The article considers Donbass as a transformed military natural-technogenic geosystem, formed as a result of an armed conflict in a largely urbanized industrial-urban agglomeration.

The Joint Forces operation has seen a significant increase in natural and man-made threats associated with potentially dangerous objects in the area affected by artillery systems. Emergencies at such facilities can result in significant human casualties and significant environmental and economic damage.

This raises the question of increasing the efficiency of the organizational and technical system of rescue operations in the civil defense system.

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Downloads: 74

Published

2020-09-30

How to Cite

Romanyuk , V. ., & Nikitin , A. . (2020). A mathematical formulation of the problem in preventing emergencies in the area of the Joint Forces Operation. Political Science and Security Studies Journal, 1(1), 35-39. https://doi.org/10.5281/zenodo.4122043

Issue

Vol. 1 No. 1 (2020)

Section

Articles

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