Abstract
<jats:p>This article presents methods for structural analysis of the performance properties (PP) of monolithic civil buildings, as well as improved approaches to assessing construction quality. PP include structural strength, fire and frost resistance, moisture resistance, geometric accuracy, deformation resistance, and the reliability of utility systems. The research methodology is based on the integrated application of graph-analytical modeling, systems analysis, statistical data processing, and geodetic control. Using a graph-analytical approach, the structure of the relationships between PP parameters was established and key indicators were identified. Furthermore, a methodology for improving the effectiveness of construction supervision through an office analysis of as-built geodetic documentation is proposed. The relationships between the parameters are presented in the form of a specialized graphical model and assessed in terms of their engineering significance, measurability, and regulatory framework. Particular attention is paid to the optimal physical characteristics of materials, compliance with thermal and hygienic requirements, and factors affecting the operational performance of structures. The study resulted in the development of an effective model that enables scientifically valid analysis of the structure of structural systems, and confirmed the influence of key parameters on the durability and reliability of buildings. The results obtained pave the way for comprehensively improving the performance of monolithic structures and enhance the reliability of construction supervision systems.</jats:p>