Introduction:
In today's post, we dive deep into the realm of parametric design, unraveling the art of driving multiple parameters simultaneously per instance through meticulous list manipulation and astute data management. This week's focus centers on the formidable Object-Oriented Parametrically Controlled Panels and their transformative potential.
Empowering Flexibility:
These panels possess a remarkable ability to adapt, providing varying degrees of shade based on functional zones and prevailing weather conditions. Moreover, they feature two distinct shapes strategically mapped to infuse additional light into public areas and halls, enhancing both aesthetics and functionality.
A Series of Innovation:
This venture is a pivotal segment of my ongoing #parametricdesignseries and a cornerstone of my forthcoming #kineticfacadeseries. Each individual instance boasts four directional possibilities for shape alteration, ensuring the perfect balance of shade and light in designated areas. The result? An environment flooded with indirect sunlight, free from glare, and boasting reduced solar heat gain. This equates to 80% more natural light, heightened productivity through enhanced relaxation, leading to reduced energy expenditure, a diminished carbon footprint, and a contented workforce.
Marrying Fabric and Carbon Tensile Partitions:
The fabric and carbon tensile partitions, orchestrated by the dynamic interplay of #dynamo and #parametricdesign via #revitbim, exemplify a harmonious fusion of lightweight design and enduring durability, thanks to their synthetic composite composition.
Sun Tracking for Optimal Lighting:
In the pursuit of #parametricfacadedesign, it has been a revelatory journey crafting multiple designs and refining the art of mathematical mapping functions. A key highlight has been leveraging the sun azimuth parameter to precisely track and adjust for solar intensity, ultimately reducing excess lighting and optimizing the environment.
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