This thesis presents the concept of adaptive LED lighting designed to support the human biological rhythm. The theoretical part discusses the impact of light on the circadian rhythm, reviews modern wired and wireless technologies, and provides a detailed description of the Casambi wireless system. Special attention is given to the role of sensors in achieving optimal lighting conditions and reducing energy consumption. The practical part analyzes two case studies of Casambi system implementation, the reconstruction of office luminaires with the introduction of integrative lighting and the optimization of industrial outdoor lighting using sensors DALI and automated scenes. The results demonstrate that wireless solutions can achieve a high level of adaptability of existing luminaires, improve working conditions, and provide significant energy savings, exceeding 60% in the industrial case. The thesis confirms that wireless systems such as Casambi enable efficient and user-friendly upgrades of existing lighting installations without major construction interventions.
|
