In particular, the bio-inspired interactive kinetic façade with grid division 8x1 displays extraordinary daylight performance for south direction that prevents visual discomfort by keeping cases in the imperceptible range while providing an adequate average Spatial Daylight Autonomy of 60.5%, Useful Daylight illuminance of 90.47%, and Exceed Useful Daylight illuminance of 2.94%. So I found it quite interesting to find that this places, Kiefer Technic Showroom designed by Ernst Giselbrecht + Partner, ground-plan has been determined by its façade. The annual climate-based metrics and luminance-based metric simulation results of 810 bio-inspired interactive kinetic façade alternatives prove that the elastic-deformable-complex-kinetic form triggered by the dynamic transitory-sensitive area can improve the visual comfort of multiple occupants simultaneously. I have been looking in to the idea that the exterior foot print of a building should be controlled by its interior space requirements.
Learning from the transitory stage and hunting new position of stomata's patchy patterns, leads us to identify the dynamic transitory-sensitive area of attraction point on the façade that is triggered by the dynamic sun-timing position and multiple occupants. This research builds on relevant literature study, biomimicry morphological approaches, and parametric simulations, to develop a bio-inspired interactive kinetic façade for improving multiple occupants' visual comfort simultaneously, inspired by plant's stomata movement and behavior principles. However, integrating the biomimicry principles of morphological adaptation with dynamic, complex fenestration, and human-in-loop systems can lead us to find an optimal solution. Improving daylight performance and preventing visual discomfort for multiple occupants simultaneously is challenging.
The dynamic nature of daylight and occupants' positions can cause some issues such as heat gains and visual discomfort, which need to be controlled in real-time operation. The architectural form of the façade determines its identity as well as interactions with micro-climate forces of the ambient environment, such as solar radiation.