Proceedings of the International scientific and practical conference ― Cambridge Science and Education Conference‖ (February 23-25, 2026) / Publisher website: www.naukainfo.com. – Cambridge, United Kingdom, 2026. - 289 p.

258 of geodetic knowledge in architectural design, identifies gaps in professional training, and proposes a competency-based model of geodetic education for future architects. The results demonstrate that geodetic competence is not an auxiliary but a foundational component of professional architectural activity, directly influencing design accuracy, spatial coordination, and construction reliability. Keywords : geodetic education, architectural training, spatial accuracy, BIM, digital transformation, professional competencies. Introduction The contemporary construction sector is undergoing rapid digital transformation characterized by the implementation of Building Information Modeling (BIM), laser scanning technologies, UAV-based photogrammetry, and geographic information systems (GIS) [1, 2]. Architectural design increasingly depends on accurate spatial data and precise geodetic frameworks. Despite this technological evolution, geodesy in architectural education is often perceived as a secondary engineering discipline. In many educational programs for specialty 191 ―Architecture and Urban Planning,‖ the volume of geodetic training is limited and insufficiently integrated with professional design tasks. This creates a discrepancy between educational outcomes and real professional requirements. Aim – is to substantiate the necessity of strengthening geodetic training for architecture students and to propose a conceptual model for forming geodetic competence in architectural education. Materials and methods. Geodetic support is an integral part of every stage in the life cycle of a construction object [3]: Preparation of topographic plans and execution of geodetic surveys; Alignment and coordination of project documentation with actual geodetic survey data; Monitoring and control of geometric parameters during the construction process; Deformation monitoring during the operational phase and reconstruction.