BACKGROUND: Aspects related to daily human activities, features of indoor activities, such as lighting settings, integration with building systems and changing locations during the day in various places, are largely ignored in lighting control systems based on generally applicable values and regulatory standards. The modern intensive rhythm of life, which implies the widespread use of new, constantly improving technologies, frequent changes in the environment — all this creates the need for a modern approach to the study and application of an intelligent lighting system.

AIM: Development and research of operability and functioning quality of the electro-technical facilities, systems and their components in various modes, under various external influences.

METHODS: Design of lighting systems in the Autodesk AutoCAD software, calculation of quantity and activation areas, as well as implementation of biodynamic lighting using the AWADA application.

RESULTS: In this paper, the study object is the ‘Dom.RF’ pavilion facility built in 2023 for the ‘Russia’ exhibition on the territory of the Exhibition of Achievements of National Economy (VDNKh). The pavilion was planned to show the image of a new market for individual housing construction, ensuring comfortable living in a harmonious environment [2]. This paper contains a technical and economic comparison of the implemented lighting systems and the use of biodynamic lighting. The practical value of the study lies in the operability testing, development and design of the biodynamic lighting designed for a public building used as an exhibition pavilion.

CONCLUSION: A complete package of measures for replacement with the development of an effective, ecological and safe implementation of biodynamic lighting for the technical facility of the pavilion, including the creation and operation of components, has been developed.