information flows, construction enterprise, functional model, efficiency criteria


The article's research subject is the information technology of construction company's material resources management. The work's purpose is to construct and implement tools for modeling construction company's material resources management information technology. The article solves the following tasks: determining the place of information technology of construction company's material resources management in the modern construction company's information ecosystem, defining the main components, and building a functional model of construction company's material resources management information technology, taking into account the shortcomings of existing models, сreation of the multicriteria optimization model of the considered information technology. The following methods are used: system analysis, structural analysis, mathematical modeling of complex systems and processes, multicriteria optimization. The following results were obtained: a structural analysis of the existing information ecosystem at the regional level construction company, the composition of which is agreed on the organizational structure elements of the enterprise and the stages of the construction life cycle; considered the functions of construction company's material resources management which are realized at various stages of a construction project life cycle; constructed the set-theoretical model of material resources management information technology; determined the functional characteristics of the considered information technology, offered the criteria of information technology efficiency according to the ITIL strategy; constructed the conceptual model of information technology of material resources management. Conclusions: for the first time, developed tools for modeling construction company's material resources management information technology, including a theoretical-multiple model of material resources management information technology; Offered the information technology's conceptual scheme which realizes specific information technology's functional characteristics. The built modeling strategy will provide an opportunity for further development and software implementation of the information technology.

Author Biographies

Maryna Novozhylova, O. M. Beketov National University of Urban Economy in Kharkiv

Doctor of Sciences (Physical and Mathematical), Professor, Head of the Department

Vladyslav Kramarenko, O. M. Beketov National University of Urban Economy in Kharkiv

Postgraduate Student

Olga Chub, V. N. Karazin Kharkiv National University

PhD (Economics Scienses), Assocciate Professor of the Department of Theoretical and Practical Systemotechnics


Resolution of the Cabinet of Ministers of Ukraine of June 23, 2021 № 681 "Some issues of ensuring the functioning Unified State Electronic System in the construction field" [Postanova Kabinetu Ministriv Ukrainy vid 23 chervnia 2021 r. № 681 "Deiaki pytannia zabezpechennia funktsionuvannia Yedynoi derzhavnoi elektronnoi systemy u sferi budivnytstva"], available at : (last accessed 16.08.2021).

Order of the Cabinet of Ministers of Ukraine "On approval of the Concept of implementation of building information modeling technologies (BIM-technologies) in Ukraine and approval of the action plan for its implementation" [Rozporiadzhennia Kabinetu Ministriv Ukrainy "Pro skhvalennia Kontseptsii vprovadzhennia tekhnolohii budivelnoho informatsiinoho modeliuvannia (VIM-tekhnolohii) v Ukraini ta zatverdzhennia planu zakhodiv z yii realizatsii"], available at : (last accessed 16.08.2021).

Sharma, A., Rana, N. P., Nunkoo, R. (2021), "Fifty years of information management research: A conceptual structure analysis using structural topic modeling", International Journal of Information Management, Vol. 58, 102316. DOI:

Chen, Q., de Soto, G. B., Adey, B. T. (2018), "Construction automation: Research areas, industry concerns and suggestions for advancement", Automation in Construction, Vol. 94, Р. 22–38. DOI:

Tomashevsky, O. M., Tsegelyk, G. G., Viter, M. B., Duduk, V. I. (2012), Information technologies and business process modeling [Informatsiini tekhnolohii ta modeliuvannia biznes-protsesiv], Kyiv, 296 p.

"Governance of IT for the organization: ISO/IEC 38500:2015", available at : (last accessed 16.08.2021).

Kraychuk, S. O. (2016), "The state of introduction of information technologies in management of modern enterprises" ["Stan zaprovadzhennia informatsiinykh tekhnolohii v upravlinni suchasnymy pidpryiemstvamy"], Efficient economy, No. 4.

Zolotukhina, O. A. (2018) "The structure of information technology control of resource costs" ["Struktura informatsiinoi tekhnolohii kontroliu vytrat resursiv"], Telecommunication and information technologies, No. 1 (58), P. 96–104.

Biloshchytsky, A. A., Biloshchytska, S. V., Lisnevsky, R. V., Lyashchenko, T. O. (2011), "Improvement of methods and means of modern information technologies in teaching and control of knowledge" ["Udoskonalennia metodiv i zasobiv suchasnykh informatsiinykh tekhnolohii v navchanni i kontroli znan"], Management of complex systems development, Vol. 5, P. 87–94.

Alshawi, M., Underwood, J. (1996), "Applying object-oriented analysis to the integration of design and construction", Automation in Construction Volume, No. 5 (2), P. 105–121. DOI: 00023-2.

Takeuchi, H., Yamamoto, S. (2020), "Business Analysis Method for Constructing Business–AI Alignment Model", Procedia Computer Science, Vol. 176, P. 1312–1321. DOI:

Eldeep, Ah. M., Moataz, A. M., Farag, L. M., El-hafez, A. (2021), "Using BIM as a lean management tool in construction processes – A case study", Ain Shams Engineering Journal, In Press, Corrected Proof. DOI:

Shehzad, M. H. F., Ibrahim, R. B., Yusof, A. F., Khaidzir, Kh. A. M., Igbal, M., Razzaq, S. (2021), "The role of interoperability dimensions in building information modelling", Computers in Industry, Vol. 129, 103444. DOI:

Tesla, Yu. M., Oberemok, N. V, Latysheva, T. V. (2015), "Matrix information technology NADPROJECT project management of construction companies" ["Matrychna informatsiina tekhnolohiia NADPROJECT upravlinnia proektamy budivelnykh kompanii"], Management of complex systems development, No. 22, P. 84–88.

Kramarenko, V. I., Novozhilova, M. V. (2020), "Analysis of information systems for managing material resources of a construction company" ["Analiz informatsiinykh system upravlinnia materialnymy resursamy budivelnoho pidpryiemstva"], Prospects for the development of territories: theory and practice, P. 468–470.

Danshina, S. Yu. (2021), "Generalized approach to the management of material resources of the project", Innovative Technologies and Scientific Solutions for Industries, No. 1 (15), P. 43–51. DOI:

"Graphisoft BIMcloud", available at : (last accessed 16.08.2021).

"Intelligent software Samar" ["Intelektualne prohramne zabezpechennia Samar"], available at : (last accessed 16.08.2021).

"BIM 360", available at : (last accessed 16.08.2021).

"Navisworks", available at : (last accessed 16.08.2021).

Chub, O. I., Novozhilova, M. V. (2017), Multicriteria optimization of resource provision of renewable works on infrastructure objects [Bahatokryterialna optymizatsiia resursnoho zabezpechennia vidnovliuvanykh robit na infrastrukturnykh obiektakh] : Monograph, Kharkiv, 150 p.

Axelos. ITIL Foundation, ITIL 4 edition. 1. UK : TSO (The Stationery Office). 2019. 222 р.