Daylight contains dynamic features such as color and intensity that may vary over time. The ideas of Orosi windows and biomimetic kinetic lessons of butterfly wings are viewed as essential tactics for regulating dynamic daylight. As a result, this research looks at a methodological technique for providing an appropriate combination of kinetic behavior and movement with colorful glass compositions to boost occupants' daylight performance. The research is being carried out using a multidisciplinary method that includes general morphological analysis (GMA) and a kinetic design strategy. The methodology uses GMA for parametric exploration between interconnected principles of Orosi windows and biomimetic lessons of Morpho butterfly wings to make a matrix of relationships between parameters. The kinetic façade changes the depth and scale of the hexagonal modular elements across a south direction in Iran. Moreover, the most optimal depth and scale of the hexagonal grid regarding the daylight performance metrics have been used to change the composition of colored glasses by periodic movements due to dynamic sun-timing and occupant's positions. The annual daylight metrics analysis of all kinetic alternatives represents high daylight performance by UDI, EUDI, sDA of 93.5, 6.29, and 78.37, respectively. The facade increases the amount of UDI up to 5.61 times regarding the base case while decreasing the amount of EUDI in the room by an average of 91.8%. Concerning predicting the risk of glare, as a point in time metric, the façade prevents visual discomfort by keeping most scenarios in the imperceptible range.

日光包含可能随时间变化的动态特征，例如颜色和强度。Orosi 窗户的想法和蝴蝶翅膀的仿生动力学课程被视为调节动态日光的基本策略。因此，这项研究着眼于一种方法技术，该技术可将动态行为和运动与彩色玻璃成分适当结合，以提高乘员的日光性能。该研究正在使用包括一般形态分析（GMA）和动力学设计策略在内的多学科方法进行。该方法使用 GMA 在 Orosi 窗口的相互关联原理和 Morpho 蝴蝶翅膀的仿生课程之间进行参数探索，以建立参数之间的关系矩阵。动感的立面改变了伊朗南部六边形模块化元素的深度和规模。此外，关于日光性能指标的六边形网格的最佳深度和比例已被用于通过动态太阳时间和乘员位置的周期性运动来改变有色眼镜的组成。所有动力替代品的年度日光指标分析代表 UDI、EUDI、sDA 分别为 93.5、6.29 和 78.37 的高日光性能。立面将 UDI 量增加至基本情况的 5.61 倍，同时将房间内的 EUDI 量平均减少 91.8%。关于预测眩光的风险，作为一个时间点指标，立面通过将大多数场景保持在不易察觉的范围内来防止视觉不适。