Article

Received 30.04.2025

Revised 26.08.2025

Accepted 30.09.2025

Retrieved from Iss. 118, P. 1, 2025

Pages 80 -88

Pohosov, O., Kolchyk, Yu., Doroshenko, A., & Chechuga, O. (2025). METHODOLOGY AND ALGORITHM FOR OBJECT-BY-OBJECT ASSESSMENT OF PROPERTY DAMAGE TO CONSTRUCTION OBJECTS ON THE EXAMPLE OF AN ADMINISTRATIVE BUILDING OF TRANSPORT INFRASTRUCTURE. Automobile Roads and Road Construction, (118.1), 80-88. https://doi.org/10.33744/0365-8171-2025-118.1-080-088

METHODOLOGY AND ALGORITHM FOR OBJECT-BY-OBJECT ASSESSMENT OF PROPERTY DAMAGE TO CONSTRUCTION OBJECTS ON THE EXAMPLE OF AN ADMINISTRATIVE BUILDING OF TRANSPORT INFRASTRUCTURE

Oleksandr Pohosov Yulia Kolchyk Andrii Doroshenko Oleksandr Chechuga

The aim of the work is to develop a methodology and algorithm for object-by-object assessment of property damage to construction sites using the example of administrative buildings of transport infrastructure. The methodological basis is a scientific approach to the analysis of research questions through the use of statistical, formal-logical, and complex research methods. The sources of the research are the Unified State Electronic System in the Field of Construction

administrative building of transport infrastructure, object-by-object assessment of property damage to construction objects, inspection, damaged objects, inspection report, defect report, USESC, loss determination algorithm
  1. Zhuk, V., Bezdushna, Y., & Shenderivska, Y. (2024). Organizational and methodological approaches to the introduction of mass assessment of losses. Accounting & Finance, 105(3).
  2. Drapikovskyi, O., & Ivanova, I. (2023). Property damage assessment methods and models due to armed aggression. Real Estate Management and Valuation, 31(3), 32-43.
  3. Brandt, E., & Rasmussen, M.H. (2002). Assessment of building conditions. Energy and Buildings, 34(2), 121-125.
  4. Molodid, O., Kovalchuk, O., Skochko, V., Plokhuta, R., Molodid, O., & Musiiaka, I. (2023). Inspection of war-damaged buildings and structures by the example of urban settlement Borodianka. Strength of Materials and Theory of Structures, 110, 328-343.
  5. Pohosov, A., Pasichnyk, P., & Kulinko, E. (2023). The impact of some design decisions on the energy efficiency class of a building. Collection of Scientific Papers "SCIENTIA", 214-217.
  6. Molodid, O., Skochko, V., Plohuta, R., Molodid, O., Musiika, I., Benderskyi, S., & Bohdan, S. (2024). Modern methods of restoration of damaged historical buildings damaged as a result of military aggression. International Journal of Nature Conservation Science, 15.
  7. Unified State Electronic System for Construction (USESC). (n.d.). Retrieved from https://e-construction.gov.ua/.
  8. Pasichnyk, P., Pogosov, O., & Kulinko, E. (2024). Possibilities of decentralization of heat supply systems in gasified apartment buildings of Soviet construction in Kyiv. Scientific Collection "InterConf+", 42(189), 592-600. doi: 10.51582/interconf.19-20.02.
  9. Savchenko, O. (2023). Improving the energy efficiency of buildings in the conditions of restoration and reconstruction by introducing centralized heat supply systems. Science and Construction, 38(4).
  10. Babak, V. (2024). Overcoming the unprofitability of the power system and energy market in the period of Ukraine's recovery. System Research in Energy, 2а(78), 5-6.
  11. Ministry of Community Development. (2021). On approval of estimate norms of Ukraine in construction (Order, Norms, Standard No. 156). Retrieved from https://online.budstandart.com/ua/catalog/doc-page.html?id_doc=95589.
  12. Bibik, N.V. (2013). The current state of the construction market of Ukraine as an indicator of the country's economy. Economy and Region, 6, 46-51.
  13. Ovcharenko, D. (2015). The state and prospects of development of Ukraine building market. Traektoriâ Nauki, 1(1), 2-9.
  14. Chuban, V.S., Kryshtal, T.M., & Dulgerova, O.M. (2022). State regulation of approaches to assessing economic losses caused to Ukraine as a result of the warBulletin of the National University of Civil Defense of Ukraine, 1(16).
  15. Moffett, L. (2022). Options for compensation for damages caused during the war in Ukraine. Retrieved from https://reparations.qub.ac.uk/assets/uploads/.
  16. Goncharuk, I.V., Sakhno, A.A., & Chikov, I.A. (2023). Assessment of the damage and losses caused by military actions to the economy of Ukraine, taking into account the possible needs for the restoration of the national economy. Economics, Finance, Management: Topical Issues of Science and Practice, 1(63), 109-126. doi: 10.37128/2411-4413-2023-1-9.
  17. Solonenko, Y.V., & Panasiuk, P.I. (2023). State support and stimulation of business in Ukraine during the war. Galician Economic Herald, 82(3), 190-200.
  18. Pogosov, O.G., Chepurna, N.V., Pasichnyk, P.O., Kulinko, E.O., & Doroshenko, A.A. (2023). Modern systems of heat and steam supply of industrial enterprises with the use of deep utilization of the energy potential of technological steam. Ventilation, Lighting and Heat and Gas Supply, 45, 42-51. doi: 10.32347/2409-2606.2023.45.42-51.
  19. Brus, V.V., & Vashchenko, D.O. (2022). The concept and structure of losses from the consequences of war. In Materials of the All-Ukrainian scientific conference with international participation (pp. 252-255). Cherkasy: CHIPB named after Heroes of Chernobyl of the National Center for the Study of Nuclear Safety of Ukraine. 
  20. Verstyak, A.V. (2023). Forms and methods of assessing environmental damage from war. Tavria Scientific Bulletin. Series: Economics, 17, 160-166.

https://doi.org/10.33744/0365-8171-2025-118.1-080-088