Adaptive daylight-linked lighting control system: Integrating spatial daylight factor and real-time sensing
Faridah Faridah, Dinta Wijaya, Athallah Naufal Hadi, Mohammad Itqon Alexander, Thomas Oka Pratama, Yakub Fahim Luckyarno, Rachmawan Budiarto, Sunarno Sunarno, Muhammad Khalis Farhan Azvi, Dimas Fredy Prakasa
Indoor lighting system is one of the significant contributors of building’s energy consumption. This study aims to improve indoor lighting system efficiency by developing an adaptive lighting control system that integrates the spatial dimensions of DF and real-time outdoor illuminance sensing based on soft sensors in two educational rooms in Yogyakarta, Indonesia. The research developed the system using in situ measurements, developed predictive and control algorithms, integrated them into a building energy management system, and validated its performance. The soft sensor algorithm demonstrated good predictive performance with MAE and RMSE distributions of
Practical application
The proposed DF-based soft sensor system offers a practical and scalable solution for adaptive indoor lighting control with a cost-effective yet accurate, reliable, and applicable approach. The system was developed using a calibrated outdoor illuminance sensor, an embedded microcontroller, and integration with a Building Energy Management System (BEMS), and thus allows real-time prediction of indoor illuminance without the need for costly hardware sensor networks. This approach reduces installation complexity and operational costs and is applicable to both existing and new buildings, is flexible, and is scalable for other types of buildings, occupant and activity patterns, and climates and regions.