Abstract
Purpose: The occupant is able to gain visual, emotional, and physiological advantages in a place that daylighting is provided sufficiently. The purpose of this study is to examine the health aspects of the light environment on the human body and implement a light environment model of a residential building that can improve the immunity of residents. Immune building is the place immunized to prevent the penetration of viruses and improve the physical and mental health of residents by managing not only the architectural environment of thermal, air, sound, light but human subjective elements through technical and institutional approaches. Method: For the implementation of immune buildings, a standard model of apartment housing was selected and a number of light environment simulations were performed. The daylighting performance of the residential model was analyzed based on the static and dynamic daylight credits presented abroad. Result: As a results, the daylighting performance such as daylighting factor, uniformity ratio, spatial daylight autonomy and useful daylight autonomy in bed room 2 and 3 meets the criteria of international green building rating system.
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