Civil Engineering and Architecture 11(1): 517-524, 2023 http://www.hrpub.org DOI: 10.13189/cea.2023.110140 Application of the TRIZ Methodology in the Construction Industry Aiymzhan Makulova 1 , Abdizhapar Saparbayev 2 , Yeldar Zhuman 3 , Saken Abdibekov 2 , Kuralay Madiyarova 1,* , Rakhima Bekbulatova 4 1 Scientific and Educational Department of Digital Engineering and Data Analysis, Narxoz University, 050035, Almaty, Republic of Kazakhstan 2 Department of Economics and Business, Kainar Academy, 050013, Almaty, Republic of Kazakhstan 3 Center for Euro-Asian Studies, International Academy of Innovative Technologies, 050051, Republic of Kazakhstan 4 Department of Economics, M.Kh. Dulaty Taraz Regional University, 080012, Taraz, Republic of Kazakhstan Received September 1, 2022; Revised October 3, 2022; Accepted November 13, 2022 Cite This Paper in the Following Citation Styles (a): [1] Aiymzhan Makulova, Abdizhapar Saparbayev, Yeldar Zhuman, Saken Abdibekov, Kuralay Madiyarova, Rakhima Bekbulatova , "Application of the TRIZ Methodology in the Construction Industry," Civil Engineering and Architecture, Vol. 11, No. 1, pp. 517 - 524, 2023. DOI: 10.13189/cea.2023.110140. (b): Aiymzhan Makulova, Abdizhapar Saparbayev, Yeldar Zhuman, Saken Abdibekov, Kuralay Madiyarova, Rakhima Bekbulatova (2023). Application of the TRIZ Methodology in the Construction Industry. Civil Engineering and Architecture, 11(1), 517 - 524. DOI: 10.13189/cea.2023.110140. Copyright©2023 by authors, all rights reserved. Authors agree that this article remains permanently open access under the terms of the Creative Commons Attribution License 4.0 International License Abstract The relevance of the research is due to the definition of the Theory of Inventive Problem Solving (TRIZ) concept as well as the effectiveness of the theory principles during various types of construction work. The purpose of this research is to formulate the concept of the Theory of Inventive Problem Solving, as well as to evaluate the laws of development of technical systems concerning typical construction operations, which generally determines the main prospects to apply the theory to the construction industry. The methodology of this paper is based on a combination of the method of system analysis of the essence of the TRIZ concept as a separate concept that finds its reflection in various fields of science and technology, with an analytical study of the prospects to apply the principles of the theory in construction work. The results of this research indicate significant prospects for the application of the TRIZ in the construction industry and serve as a reflection of these prospects since they demonstrate the broad possibilities to apply the theory in search of new typical construction operations and to improve the quality standards of construction work in general. The results and conclusions of this scientific study are of significant importance from the point of view of prospects to apply the principles of the theory during different construction work, are important for designers of construction projects, and direct performers of construction operations interested in effective and innovative technologies in the construction sector. Keywords Innovative Technical Solutions, TRIZ, ARIZ, Quality of Construction, Construction of an Object, Management Solutions, Resources 1. Introduction In the modern world, the practical application of the Theory of Inventive Problem Solving (TRIZ) is relevant in construction works. The modern construction industry develops rapidly, while this sphere of business activity affects numerous areas of public life, while the TRIZ acts as an innovative element in these areas. In general, the Theory of Inventive Problem Solving helps to overcome the inertia of thinking, refuse compromises, and get closer to the ideal [1]. The TRIZ expands the understanding of the world and makes it possible to solve problems that previously seemed unsolvable. The main idea of the Theory of Inventive Problem Solving is to determine the basic laws of the development of technical systems (TS), and these laws can be used for the practical solution of